id	sid	tid	token	lemma	pos
work_lfiiutwqordgpkqpj7skhel7uq	1	1	Capri2010.dvi	capri2010.dvi	NN
work_lfiiutwqordgpkqpj7skhel7uq	1	2	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	1	3	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	1	4	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	1	5	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	1	6	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	7	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	1	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	1	9	Beauty	Beauty	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	10	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	1	11	hadron	hadron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	12	collisions	collision	NNS
work_lfiiutwqordgpkqpj7skhel7uq	1	13	D.	D.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	14	Tonellia∗	Tonellia∗	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	15	aFermilab	aFermilab	NNP
work_lfiiutwqordgpkqpj7skhel7uq	1	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	1	17	P.O.	P.O.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	1	Box	Box	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	2	500	500	CD
work_lfiiutwqordgpkqpj7skhel7uq	2	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	2	4	Batavia	Batavia	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	2	6	IL	IL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	7	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	2	8	60510	60510	CD
work_lfiiutwqordgpkqpj7skhel7uq	2	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	2	10	USA	USA	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	11	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	2	12	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	13	experiment	experiment	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	14	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	2	16	Tevatron	Tevatron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	17	pp̄	pp̄	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	18	collider	collider	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	19	established	establish	VBD
work_lfiiutwqordgpkqpj7skhel7uq	2	20	that	that	DT
work_lfiiutwqordgpkqpj7skhel7uq	2	21	extensive	extensive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	22	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	2	23	detailed	detailed	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	24	exploration	exploration	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	25	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	26	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	2	27	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	28	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	2	29	quark	quark	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	30	dynamics	dynamic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	2	31	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	2	32	possible	possible	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	33	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	34	hadron	hadron	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	35	collisions	collision	NNS
work_lfiiutwqordgpkqpj7skhel7uq	2	36	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	2	37	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	38	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	2	39	competitive	competitive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	40	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	2	41	supplementary	supplementary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	2	42	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	43	those	those	DT
work_lfiiutwqordgpkqpj7skhel7uq	2	44	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	2	45	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	46	+	+	CC
work_lfiiutwqordgpkqpj7skhel7uq	2	47	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	2	48	−	−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	2	49	colliders	collider	NNS
work_lfiiutwqordgpkqpj7skhel7uq	2	50	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	3	1	This	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	3	2	provides	provide	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	3	3	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	3	4	unique	unique	JJ
work_lfiiutwqordgpkqpj7skhel7uq	3	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	3	6	rich	rich	JJ
work_lfiiutwqordgpkqpj7skhel7uq	3	7	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	3	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	3	9	highly	highly	RB
work_lfiiutwqordgpkqpj7skhel7uq	3	10	rewarding	rewarding	JJ
work_lfiiutwqordgpkqpj7skhel7uq	3	11	program	program	NN
work_lfiiutwqordgpkqpj7skhel7uq	3	12	that	that	WDT
work_lfiiutwqordgpkqpj7skhel7uq	3	13	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	3	14	currently	currently	RB
work_lfiiutwqordgpkqpj7skhel7uq	3	15	reaching	reach	VBG
work_lfiiutwqordgpkqpj7skhel7uq	3	16	full	full	JJ
work_lfiiutwqordgpkqpj7skhel7uq	3	17	maturity	maturity	NN
work_lfiiutwqordgpkqpj7skhel7uq	3	18	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	4	1	I	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	4	2	report	report	VBP
work_lfiiutwqordgpkqpj7skhel7uq	4	3	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	4	4	few	few	JJ
work_lfiiutwqordgpkqpj7skhel7uq	4	5	recent	recent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	4	6	world	world	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	7	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	4	8	leading	lead	VBG
work_lfiiutwqordgpkqpj7skhel7uq	4	9	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	4	10	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	4	11	rare	rare	JJ
work_lfiiutwqordgpkqpj7skhel7uq	4	12	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	4	13	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	4	14	CP	cp	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	15	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	4	16	violation	violation	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	17	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	4	18	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	4	19	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	4	20	s	s	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	21	mixing	mix	VBG
work_lfiiutwqordgpkqpj7skhel7uq	4	22	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	4	23	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	4	24	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	25	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	4	26	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	4	27	penguin	penguin	NN
work_lfiiutwqordgpkqpj7skhel7uq	4	28	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	4	29	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	5	1	1	1	LS
work_lfiiutwqordgpkqpj7skhel7uq	5	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	6	1	Introduction	introduction	NN
work_lfiiutwqordgpkqpj7skhel7uq	6	2	Precise	Precise	NNP
work_lfiiutwqordgpkqpj7skhel7uq	6	3	results	result	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	6	4	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	6	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	6	6	successful	successful	JJ
work_lfiiutwqordgpkqpj7skhel7uq	6	7	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	6	8	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	6	9	factories	factory	NNS
work_lfiiutwqordgpkqpj7skhel7uq	6	10	experiments	experiment	NNS
work_lfiiutwqordgpkqpj7skhel7uq	6	11	disfavor	disfavor	VBP
work_lfiiutwqordgpkqpj7skhel7uq	6	12	large	large	JJ
work_lfiiutwqordgpkqpj7skhel7uq	6	13	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	6	14	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	6	15	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	6	16	standard	standard	JJ
work_lfiiutwqordgpkqpj7skhel7uq	6	17	model	model	NN
work_lfiiutwqordgpkqpj7skhel7uq	6	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	6	19	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	6	20	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	6	21	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	6	22	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	6	23	tree	tree	NN
work_lfiiutwqordgpkqpj7skhel7uq	6	24	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	6	25	dominated	dominate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	6	26	bottom	bottom	JJ
work_lfiiutwqordgpkqpj7skhel7uq	6	27	meson	meson	NNP
work_lfiiutwqordgpkqpj7skhel7uq	6	28	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	6	29	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	7	1	Agreement	agreement	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	2	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	7	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	7	4	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	5	within	within	IN
work_lfiiutwqordgpkqpj7skhel7uq	7	6	theory	theory	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	7	uncertainties	uncertainty	NNS
work_lfiiutwqordgpkqpj7skhel7uq	7	8	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	7	9	also	also	RB
work_lfiiutwqordgpkqpj7skhel7uq	7	10	manifest	manif	JJS
work_lfiiutwqordgpkqpj7skhel7uq	7	11	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	7	12	higher	high	JJR
work_lfiiutwqordgpkqpj7skhel7uq	7	13	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	7	14	order	order	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	15	processes	process	NNS
work_lfiiutwqordgpkqpj7skhel7uq	7	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	7	17	such	such	JJ
work_lfiiutwqordgpkqpj7skhel7uq	7	18	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	7	19	K0–K	K0–K	NNP
work_lfiiutwqordgpkqpj7skhel7uq	7	20	0	0	NFP
work_lfiiutwqordgpkqpj7skhel7uq	7	21	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	7	22	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	23	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	7	24	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	25	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	7	26	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	27	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	7	28	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	8	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	8	2	emerging	emerge	VBG
work_lfiiutwqordgpkqpj7skhel7uq	8	3	picture	picture	NN
work_lfiiutwqordgpkqpj7skhel7uq	8	4	confirms	confirm	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	8	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	8	6	Cabibbo	Cabibbo	NNP
work_lfiiutwqordgpkqpj7skhel7uq	8	7	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	8	8	Kobayashi	Kobayashi	NNP
work_lfiiutwqordgpkqpj7skhel7uq	8	9	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	8	10	Maskawa	Maskawa	NNP
work_lfiiutwqordgpkqpj7skhel7uq	8	11	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	8	12	CKM	CKM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	8	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	8	14	ansatz	ansatz	NN
work_lfiiutwqordgpkqpj7skhel7uq	8	15	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	8	16	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	8	17	leading	lead	VBG
work_lfiiutwqordgpkqpj7skhel7uq	8	18	pattern	pattern	NN
work_lfiiutwqordgpkqpj7skhel7uq	8	19	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	8	20	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	8	21	dynamics	dynamic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	8	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	9	1	Non-	Non-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	9	2	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	9	3	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	9	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	9	5	if	if	IN
work_lfiiutwqordgpkqpj7skhel7uq	9	6	any	any	DT
work_lfiiutwqordgpkqpj7skhel7uq	9	7	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	9	8	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	9	9	small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	9	10	corrections	correction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	9	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	9	12	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	9	13	appear	appear	VBP
work_lfiiutwqordgpkqpj7skhel7uq	9	14	well	well	RB
work_lfiiutwqordgpkqpj7skhel7uq	9	15	beyond	beyond	IN
work_lfiiutwqordgpkqpj7skhel7uq	9	16	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	9	17	TeV	TeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	9	18	scale	scale	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	19	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	9	20	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	9	21	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	9	22	LHC	LHC	NNP
work_lfiiutwqordgpkqpj7skhel7uq	9	23	reach	reach	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	24	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	9	25	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	9	26	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	9	27	have	have	VBP
work_lfiiutwqordgpkqpj7skhel7uq	9	28	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	9	29	unnatural	unnatural	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	30	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	9	31	highly	highly	RB
work_lfiiutwqordgpkqpj7skhel7uq	9	32	fine-	fine-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	9	33	tuned	tuned	JJ
work_lfiiutwqordgpkqpj7skhel7uq	9	34	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	35	structure	structure	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	36	that	that	WDT
work_lfiiutwqordgpkqpj7skhel7uq	9	37	escaped	escape	VBD
work_lfiiutwqordgpkqpj7skhel7uq	9	38	all	all	DT
work_lfiiutwqordgpkqpj7skhel7uq	9	39	experi-	experi-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	9	40	mental	mental	JJ
work_lfiiutwqordgpkqpj7skhel7uq	9	41	tests	test	NNS
work_lfiiutwqordgpkqpj7skhel7uq	9	42	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	9	43	date	date	NN
work_lfiiutwqordgpkqpj7skhel7uq	9	44	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	10	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	10	2	last	last	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	3	chances	chance	NNS
work_lfiiutwqordgpkqpj7skhel7uq	10	4	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	10	5	avoid	avoid	VB
work_lfiiutwqordgpkqpj7skhel7uq	10	6	such	such	PDT
work_lfiiutwqordgpkqpj7skhel7uq	10	7	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	10	8	disappointing	disappointing	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	9	impasse	impasse	NN
work_lfiiutwqordgpkqpj7skhel7uq	10	10	include	include	VBP
work_lfiiutwqordgpkqpj7skhel7uq	10	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	10	12	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	10	13	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	14	bottom	bottom	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	15	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	10	16	strange	strange	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	17	mesons	meson	NNS
work_lfiiutwqordgpkqpj7skhel7uq	10	18	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	10	19	still	still	RB
work_lfiiutwqordgpkqpj7skhel7uq	10	20	fairly	fairly	RB
work_lfiiutwqordgpkqpj7skhel7uq	10	21	unexplored	unexplored	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	22	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	10	23	along	along	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	24	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	25	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	10	26	few	few	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	27	rare	rare	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	28	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	10	29	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	10	30	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	10	31	not	not	RB
work_lfiiutwqordgpkqpj7skhel7uq	10	32	fully	fully	RB
work_lfiiutwqordgpkqpj7skhel7uq	10	33	probed	probe	VBN
work_lfiiutwqordgpkqpj7skhel7uq	10	34	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	35	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	10	36	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	10	37	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	10	38	factories	factory	NNS
work_lfiiutwqordgpkqpj7skhel7uq	10	39	because	because	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	40	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	10	41	limited	limited	JJ
work_lfiiutwqordgpkqpj7skhel7uq	10	42	event	event	NN
work_lfiiutwqordgpkqpj7skhel7uq	10	43	statis-	statis-	NN
work_lfiiutwqordgpkqpj7skhel7uq	10	44	tics	tic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	10	45	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	11	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	11	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	3	experiment	experiment	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	4	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	11	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	11	6	Tevatron	Tevatron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	7	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	11	8	cur-	cur-	RB
work_lfiiutwqordgpkqpj7skhel7uq	11	9	rently	rently	RB
work_lfiiutwqordgpkqpj7skhel7uq	11	10	leading	lead	VBG
work_lfiiutwqordgpkqpj7skhel7uq	11	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	11	12	exploration	exploration	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	13	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	11	14	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	11	15	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	11	17	ow-	ow-	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	11	18	ing	e	VBG
work_lfiiutwqordgpkqpj7skhel7uq	11	19	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	11	20	CP	CP	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	21	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	11	22	symmetric	symmetric	JJ
work_lfiiutwqordgpkqpj7skhel7uq	11	23	initial	initial	JJ
work_lfiiutwqordgpkqpj7skhel7uq	11	24	states	state	NNS
work_lfiiutwqordgpkqpj7skhel7uq	11	25	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	11	26	√	√	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	27	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	28	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	11	29	1.96	1.96	CD
work_lfiiutwqordgpkqpj7skhel7uq	11	30	TeV	TeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	11	31	pp̄	pp̄	JJ
work_lfiiutwqordgpkqpj7skhel7uq	11	32	collisions	collision	NNS
work_lfiiutwqordgpkqpj7skhel7uq	11	33	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	11	34	large	large	JJ
work_lfiiutwqordgpkqpj7skhel7uq	11	35	event	event	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	36	samples	sample	NNS
work_lfiiutwqordgpkqpj7skhel7uq	11	37	collected	collect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	11	38	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	11	39	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	11	40	well	well	RB
work_lfiiutwqordgpkqpj7skhel7uq	11	41	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	11	42	understood	understand	VBN
work_lfiiutwqordgpkqpj7skhel7uq	11	43	detector	detector	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	44	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	11	45	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	11	46	mature	mature	VB
work_lfiiutwqordgpkqpj7skhel7uq	11	47	anal-	anal-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	11	48	ysis	ysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	11	49	techniques	technique	NNS
work_lfiiutwqordgpkqpj7skhel7uq	11	50	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	12	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	12	2	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	12	3	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	12	4	multipurpose	multipurpose	NN
work_lfiiutwqordgpkqpj7skhel7uq	12	5	mag-	mag-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	12	6	netic	netic	NNP
work_lfiiutwqordgpkqpj7skhel7uq	12	7	spectrometer	spectrometer	NN
work_lfiiutwqordgpkqpj7skhel7uq	12	8	surrounded	surround	VBN
work_lfiiutwqordgpkqpj7skhel7uq	12	9	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	12	10	4π	4π	NNP
work_lfiiutwqordgpkqpj7skhel7uq	12	11	calorime-	calorime-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	12	12	ters	ter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	12	13	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	12	14	muon	muon	NN
work_lfiiutwqordgpkqpj7skhel7uq	12	15	detectors	detector	NNS
work_lfiiutwqordgpkqpj7skhel7uq	12	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	13	1	Most	most	RBS
work_lfiiutwqordgpkqpj7skhel7uq	13	2	relevant	relevant	JJ
work_lfiiutwqordgpkqpj7skhel7uq	13	3	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	13	4	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	5	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	6	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	13	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	13	8	tracking	tracking	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	13	10	particle	particle	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	11	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	13	12	identification	identification	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	13	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	13	14	PID	PID	NNP
work_lfiiutwqordgpkqpj7skhel7uq	13	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	13	16	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	13	17	muon	muon	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	18	detectors	detector	NNS
work_lfiiutwqordgpkqpj7skhel7uq	13	19	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	13	20	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	13	21	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	13	22	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	23	sys-	sys-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	13	24	∗	∗	NNP
work_lfiiutwqordgpkqpj7skhel7uq	13	25	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	13	26	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	13	27	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	13	28	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	13	29	tem	tem	NN
work_lfiiutwqordgpkqpj7skhel7uq	13	30	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	14	1	Six	six	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	2	layers	layer	NNS
work_lfiiutwqordgpkqpj7skhel7uq	14	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	4	double	double	JJ
work_lfiiutwqordgpkqpj7skhel7uq	14	5	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	14	6	readout	readout	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	7	silicon	silicon	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	8	mi-	mi-	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	9	crostrip	crostrip	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	10	detectors	detector	NNS
work_lfiiutwqordgpkqpj7skhel7uq	14	11	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	12	2.5	2.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	13	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	14	14	22	22	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	15	cm	cm	NNS
work_lfiiutwqordgpkqpj7skhel7uq	14	16	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	14	18	beam	beam	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	19	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	14	20	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	14	21	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	14	22	single	single	JJ
work_lfiiutwqordgpkqpj7skhel7uq	14	23	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	14	24	readout	readout	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	25	layer	layer	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	26	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	27	1.5	1.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	28	cm	cm	NNS
work_lfiiutwqordgpkqpj7skhel7uq	14	29	ra-	ra-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	14	30	dius	dius	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	31	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	14	32	provide	provide	VB
work_lfiiutwqordgpkqpj7skhel7uq	14	33	precise	precise	JJ
work_lfiiutwqordgpkqpj7skhel7uq	14	34	vertex	vertex	NNP
work_lfiiutwqordgpkqpj7skhel7uq	14	35	reconstruction	reconstruction	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	36	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	14	37	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	38	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	14	39	15	15	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	40	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	14	41	70	70	CD
work_lfiiutwqordgpkqpj7skhel7uq	14	42	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	14	43	µm	µm	NNP
work_lfiiutwqordgpkqpj7skhel7uq	14	44	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	45	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	14	46	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	14	47	az-	az-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	14	48	imuthal	imuthal	NNP
work_lfiiutwqordgpkqpj7skhel7uq	14	49	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	14	50	longitudinal	longitudinal	JJ
work_lfiiutwqordgpkqpj7skhel7uq	14	51	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	14	52	direction	direction	NN
work_lfiiutwqordgpkqpj7skhel7uq	14	53	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	15	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	15	2	drift	drift	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	3	cham-	cham-	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	4	ber	ber	NNP
work_lfiiutwqordgpkqpj7skhel7uq	15	5	provides	provide	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	15	6	96	96	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	7	samplings	sampling	NNS
work_lfiiutwqordgpkqpj7skhel7uq	15	8	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	15	9	three	three	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	10	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	15	11	dimensional	dimensional	JJ
work_lfiiutwqordgpkqpj7skhel7uq	15	12	charged	charge	VBN
work_lfiiutwqordgpkqpj7skhel7uq	15	13	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	15	14	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	15	15	trajectories	trajectory	NNS
work_lfiiutwqordgpkqpj7skhel7uq	15	16	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	15	17	40	40	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	18	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	15	19	140	140	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	20	cm	cm	NNS
work_lfiiutwqordgpkqpj7skhel7uq	15	21	radii	radii	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	22	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	15	23	|η|	|η|	NNP
work_lfiiutwqordgpkqpj7skhel7uq	15	24	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	15	25	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	26	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	15	27	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	15	28	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	15	29	transverse	transverse	JJ
work_lfiiutwqordgpkqpj7skhel7uq	15	30	momentum	momentum	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	31	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	32	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	15	33	σpT	σpT	NNP
work_lfiiutwqordgpkqpj7skhel7uq	15	34	/p	/p	NNP
work_lfiiutwqordgpkqpj7skhel7uq	15	35	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	36	T	t	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	37	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	15	38	0.1%/(GeV	0.1%/(gev	CD
work_lfiiutwqordgpkqpj7skhel7uq	15	39	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	15	40	c	c	NN
work_lfiiutwqordgpkqpj7skhel7uq	15	41	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	15	42	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	16	1	Specific	specific	JJ
work_lfiiutwqordgpkqpj7skhel7uq	16	2	ionization	ionization	NN
work_lfiiutwqordgpkqpj7skhel7uq	16	3	measurements	measurement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	16	4	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	16	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	16	6	chamber	chamber	NN
work_lfiiutwqordgpkqpj7skhel7uq	16	7	allow	allow	VBP
work_lfiiutwqordgpkqpj7skhel7uq	16	8	1.5σ	1.5σ	CD
work_lfiiutwqordgpkqpj7skhel7uq	16	9	separation	separation	NN
work_lfiiutwqordgpkqpj7skhel7uq	16	10	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	16	11	charged	charged	JJ
work_lfiiutwqordgpkqpj7skhel7uq	16	12	kaons	kaon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	16	13	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	16	14	pi-	pi-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	16	15	ons	ons	NN
work_lfiiutwqordgpkqpj7skhel7uq	16	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	16	17	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	16	18	constant	constant	JJ
work_lfiiutwqordgpkqpj7skhel7uq	16	19	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	16	20	momenta	momenta	NNP
work_lfiiutwqordgpkqpj7skhel7uq	16	21	larger	large	JJR
work_lfiiutwqordgpkqpj7skhel7uq	16	22	than	than	IN
work_lfiiutwqordgpkqpj7skhel7uq	16	23	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	16	24	GeV	GeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	16	25	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	16	26	c	c	NN
work_lfiiutwqordgpkqpj7skhel7uq	16	27	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	17	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	17	2	comparable	comparable	JJ
work_lfiiutwqordgpkqpj7skhel7uq	17	3	identification	identification	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	4	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	17	5	achieved	achieve	VBN
work_lfiiutwqordgpkqpj7skhel7uq	17	6	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	17	7	lower	low	JJR
work_lfiiutwqordgpkqpj7skhel7uq	17	8	momenta	momenta	NNP
work_lfiiutwqordgpkqpj7skhel7uq	17	9	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	17	10	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	17	11	array	array	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	12	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	17	13	scin-	scin-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	17	14	tillator	tillator	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	15	bars	bar	NNS
work_lfiiutwqordgpkqpj7skhel7uq	17	16	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	17	17	140	140	CD
work_lfiiutwqordgpkqpj7skhel7uq	17	18	cm	cm	NNP
work_lfiiutwqordgpkqpj7skhel7uq	17	19	radius	radius	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	20	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	17	21	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	17	22	measure	measure	VBP
work_lfiiutwqordgpkqpj7skhel7uq	17	23	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	17	24	time	time	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	25	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	17	26	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	17	27	flight	flight	NN
work_lfiiutwqordgpkqpj7skhel7uq	17	28	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	18	1	Muons	muon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	18	2	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	18	3	pT	pT	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	4	>	>	NN
work_lfiiutwqordgpkqpj7skhel7uq	18	5	1.5(2.2	1.5(2.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	18	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	18	7	GeV	GeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	18	9	c	c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	10	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	18	11	detected	detect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	18	12	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	18	13	planar	planar	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	14	drift	drift	NN
work_lfiiutwqordgpkqpj7skhel7uq	18	15	chambers	chamber	NNS
work_lfiiutwqordgpkqpj7skhel7uq	18	16	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	18	17	|η|	|η|	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	18	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	18	19	0.6	0.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	18	20	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	18	21	0.6	0.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	18	22	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	18	23	|η|	|η|	NNP
work_lfiiutwqordgpkqpj7skhel7uq	18	24	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	18	25	1.0	1.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	18	26	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	18	27	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	19	1	Low	low	JJ
work_lfiiutwqordgpkqpj7skhel7uq	19	2	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	19	3	pT	pT	NNP
work_lfiiutwqordgpkqpj7skhel7uq	19	4	dimuon	dimuon	NN
work_lfiiutwqordgpkqpj7skhel7uq	19	5	triggers	trigger	NNS
work_lfiiutwqordgpkqpj7skhel7uq	19	6	select	select	VBP
work_lfiiutwqordgpkqpj7skhel7uq	19	7	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	19	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	19	9	ψ	ψ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	19	10	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	19	11	rare	rare	JJ
work_lfiiutwqordgpkqpj7skhel7uq	19	12	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	19	13	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	19	14	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	19	15	bottomonia	bottomonia	NNP
work_lfiiutwqordgpkqpj7skhel7uq	19	16	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	19	17	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	20	1	They	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	20	2	collected	collect	VBD
work_lfiiutwqordgpkqpj7skhel7uq	20	3	approxi-	approxi-	NN
work_lfiiutwqordgpkqpj7skhel7uq	20	4	mately	mately	RB
work_lfiiutwqordgpkqpj7skhel7uq	20	5	40	40	CD
work_lfiiutwqordgpkqpj7skhel7uq	20	6	millions	million	NNS
work_lfiiutwqordgpkqpj7skhel7uq	20	7	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	9	ψ	ψ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	10	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	20	11	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	20	12	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	20	13	fb−1	fb−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	14	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	20	15	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	20	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	20	17	used	use	VBN
work_lfiiutwqordgpkqpj7skhel7uq	20	18	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	20	19	reconstruct	reconstruct	VB
work_lfiiutwqordgpkqpj7skhel7uq	20	20	roughly	roughly	RB
work_lfiiutwqordgpkqpj7skhel7uq	20	21	6,000	6,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	20	22	B0s	b0s	NN
work_lfiiutwqordgpkqpj7skhel7uq	20	23	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	24	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	25	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	26	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	27	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	20	28	20,000	20,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	20	29	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	20	30	→	→	IN
work_lfiiutwqordgpkqpj7skhel7uq	20	31	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	32	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	33	ψK∗(892)0	ψK∗(892)0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	34	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	20	35	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	20	36	52,000	52,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	20	37	B+	B+	NNS
work_lfiiutwqordgpkqpj7skhel7uq	20	38	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	39	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	40	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	20	41	ψK+	ψK+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	20	42	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	20	43	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	21	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	21	2	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	21	3	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	21	4	charged	charge	VBN
work_lfiiutwqordgpkqpj7skhel7uq	21	5	parti-	parti-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	21	6	cles	cles	NNP
work_lfiiutwqordgpkqpj7skhel7uq	21	7	displaced	displace	VBN
work_lfiiutwqordgpkqpj7skhel7uq	21	8	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	21	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	21	10	primary	primary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	21	11	vertex	vertex	NN
work_lfiiutwqordgpkqpj7skhel7uq	21	12	collects	collect	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	21	13	hadronic	hadronic	JJ
work_lfiiutwqordgpkqpj7skhel7uq	21	14	heavy	heavy	JJ
work_lfiiutwqordgpkqpj7skhel7uq	21	15	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	21	16	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	21	17	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	21	18	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	22	1	It	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	22	2	relies	rely	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	22	3	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	22	4	dedi-	dedi-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	22	5	cated	cat	VBD
work_lfiiutwqordgpkqpj7skhel7uq	22	6	custom	custom	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	7	electronics	electronic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	22	8	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	22	9	reconstruct	reconstruct	VB
work_lfiiutwqordgpkqpj7skhel7uq	22	10	tracks	track	NNS
work_lfiiutwqordgpkqpj7skhel7uq	22	11	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	22	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	22	13	silicon	silicon	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	14	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	22	15	offline	offline	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	16	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	22	17	like	like	JJ
work_lfiiutwqordgpkqpj7skhel7uq	22	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	22	19	48	48	CD
work_lfiiutwqordgpkqpj7skhel7uq	22	20	µm	µm	NNP
work_lfiiutwqordgpkqpj7skhel7uq	22	21	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	22	22	impact	impact	VB
work_lfiiutwqordgpkqpj7skhel7uq	22	23	pa-	pa-	FW
work_lfiiutwqordgpkqpj7skhel7uq	22	24	rameter	ramet	JJR
work_lfiiutwqordgpkqpj7skhel7uq	22	25	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	26	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	22	27	within	within	IN
work_lfiiutwqordgpkqpj7skhel7uq	22	28	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	22	29	µs	µ	NNS
work_lfiiutwqordgpkqpj7skhel7uq	22	30	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	22	31	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	22	32	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	33	latency	latency	NN
work_lfiiutwqordgpkqpj7skhel7uq	22	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	23	1	This	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	23	2	yielded	yield	VBD
work_lfiiutwqordgpkqpj7skhel7uq	23	3	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	23	4	50	50	CD
work_lfiiutwqordgpkqpj7skhel7uq	23	5	millions	million	NNS
work_lfiiutwqordgpkqpj7skhel7uq	23	6	D0	d0	NN
work_lfiiutwqordgpkqpj7skhel7uq	23	7	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	23	8	K−π+	K−π+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	23	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	23	10	13,000	13,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	23	11	B0s	b0	NNS
work_lfiiutwqordgpkqpj7skhel7uq	23	12	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	23	13	D−s	D−s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	23	14	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	23	15	π+π−)π+	π+π−)π+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	23	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	23	17	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	23	18	12,000	12,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	23	19	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	23	20	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	23	21	K+π−	k+π−	NN
work_lfiiutwqordgpkqpj7skhel7uq	23	22	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	23	23	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	23	24	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	23	25	fb−1	fb−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	23	26	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	23	27	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	23	28	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	24	1	FERMILAB	FERMILAB	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	2	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	24	3	CONF-10	CONF-10	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	4	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	24	5	453-PPD	453-ppd	CD
work_lfiiutwqordgpkqpj7skhel7uq	24	6	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	24	7	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	8	has	have	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	24	9	currently	currently	RB
work_lfiiutwqordgpkqpj7skhel7uq	24	10	collected	collect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	24	11	8	8	CD
work_lfiiutwqordgpkqpj7skhel7uq	24	12	fb−1	fb−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	13	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	24	14	physics-	physics-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	15	quality	quality	NNP
work_lfiiutwqordgpkqpj7skhel7uq	24	16	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	24	17	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	25	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	25	2	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	25	3	size	size	NN
work_lfiiutwqordgpkqpj7skhel7uq	25	4	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	25	5	reach	reach	VB
work_lfiiutwqordgpkqpj7skhel7uq	25	6	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	25	7	fb−1	fb−1	NN
work_lfiiutwqordgpkqpj7skhel7uq	25	8	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	25	9	October	October	NNP
work_lfiiutwqordgpkqpj7skhel7uq	25	10	2011	2011	CD
work_lfiiutwqordgpkqpj7skhel7uq	25	11	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	26	1	Additional	additional	JJ
work_lfiiutwqordgpkqpj7skhel7uq	26	2	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	26	3	fb−1	fb−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	26	4	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	26	5	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	26	6	col-	col-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	26	7	lected	lecte	VBN
work_lfiiutwqordgpkqpj7skhel7uq	26	8	if	if	IN
work_lfiiutwqordgpkqpj7skhel7uq	26	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	26	10	proposed	propose	VBN
work_lfiiutwqordgpkqpj7skhel7uq	26	11	three	three	CD
work_lfiiutwqordgpkqpj7skhel7uq	26	12	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	26	13	year	year	NN
work_lfiiutwqordgpkqpj7skhel7uq	26	14	extension	extension	NN
work_lfiiutwqordgpkqpj7skhel7uq	26	15	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	26	16	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	26	17	funded	fund	VBN
work_lfiiutwqordgpkqpj7skhel7uq	26	18	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	27	1	In	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	27	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	27	3	following	following	NN
work_lfiiutwqordgpkqpj7skhel7uq	27	4	I	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	27	5	report	report	VBP
work_lfiiutwqordgpkqpj7skhel7uq	27	6	some	some	DT
work_lfiiutwqordgpkqpj7skhel7uq	27	7	recent	recent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	8	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	27	9	world-	world-	VB
work_lfiiutwqordgpkqpj7skhel7uq	27	10	leading	leading	NN
work_lfiiutwqordgpkqpj7skhel7uq	27	11	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	27	12	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	27	13	selected	select	VBN
work_lfiiutwqordgpkqpj7skhel7uq	27	14	among	among	IN
work_lfiiutwqordgpkqpj7skhel7uq	27	15	those	those	DT
work_lfiiutwqordgpkqpj7skhel7uq	27	16	more	more	JJR
work_lfiiutwqordgpkqpj7skhel7uq	27	17	sensi-	sensi-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	18	tive	tive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	19	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	27	20	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	27	21	presence	presence	NN
work_lfiiutwqordgpkqpj7skhel7uq	27	22	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	27	23	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	24	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	25	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	26	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	27	27	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	27	28	cou-	cou-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	27	29	plings	pling	NNS
work_lfiiutwqordgpkqpj7skhel7uq	27	30	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	28	1	Branching	branch	VBG
work_lfiiutwqordgpkqpj7skhel7uq	28	2	fractions	fraction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	28	3	indicate	indicate	VBP
work_lfiiutwqordgpkqpj7skhel7uq	28	4	CP	CP	NNP
work_lfiiutwqordgpkqpj7skhel7uq	28	5	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	28	6	averages	average	NNS
work_lfiiutwqordgpkqpj7skhel7uq	28	7	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	28	8	K∗0	K∗0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	28	9	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	28	10	shorthand	shorthand	NN
work_lfiiutwqordgpkqpj7skhel7uq	28	11	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	28	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	28	13	K∗(892)0	K∗(892)0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	28	14	meson	meson	NNP
work_lfiiutwqordgpkqpj7skhel7uq	28	15	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	28	16	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	28	17	charge	charge	NN
work_lfiiutwqordgpkqpj7skhel7uq	28	18	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	28	19	conjugate	conjugate	JJ
work_lfiiutwqordgpkqpj7skhel7uq	28	20	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	28	21	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	28	22	implied	imply	VBN
work_lfiiutwqordgpkqpj7skhel7uq	28	23	everywhere	everywhere	RB
work_lfiiutwqordgpkqpj7skhel7uq	28	24	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	29	1	2	2	LS
work_lfiiutwqordgpkqpj7skhel7uq	29	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	30	1	Polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	30	2	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	30	3	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	30	4	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	30	5	φφ	φφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	30	6	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	30	7	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	30	8	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	30	9	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	30	10	φφ	φφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	30	11	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	30	12	proceeds	proceed	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	30	13	through	through	IN
work_lfiiutwqordgpkqpj7skhel7uq	30	14	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	30	15	penguin	penguin	NN
work_lfiiutwqordgpkqpj7skhel7uq	30	16	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	30	17	dominated	dominate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	30	18	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	30	19	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	30	20	ss̄s	ss̄s	CD
work_lfiiutwqordgpkqpj7skhel7uq	30	21	transition	transition	NN
work_lfiiutwqordgpkqpj7skhel7uq	30	22	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	30	23	was	be	VBD
work_lfiiutwqordgpkqpj7skhel7uq	30	24	first	first	RB
work_lfiiutwqordgpkqpj7skhel7uq	30	25	detected	detect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	30	26	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	30	27	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	30	28	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	30	29	few	few	JJ
work_lfiiutwqordgpkqpj7skhel7uq	30	30	years	year	NNS
work_lfiiutwqordgpkqpj7skhel7uq	30	31	back	back	RB
work_lfiiutwqordgpkqpj7skhel7uq	30	32	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	31	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	31	2	recently	recently	RB
work_lfiiutwqordgpkqpj7skhel7uq	31	3	improved	improve	VBD
work_lfiiutwqordgpkqpj7skhel7uq	31	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	31	5	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	31	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	31	7	branch-	branch-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	31	8	ing	ing	NNP
work_lfiiutwqordgpkqpj7skhel7uq	31	9	fraction	fraction	NN
work_lfiiutwqordgpkqpj7skhel7uq	31	10	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	31	11	295	295	CD
work_lfiiutwqordgpkqpj7skhel7uq	31	12	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	31	13	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	31	14	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	31	15	reconstructed	reconstruct	VBN
work_lfiiutwqordgpkqpj7skhel7uq	31	16	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	31	17	2.9	2.9	CD
work_lfiiutwqordgpkqpj7skhel7uq	31	18	fb−1	fb−1	NN
work_lfiiutwqordgpkqpj7skhel7uq	31	19	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	31	20	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	31	21	collected	collect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	31	22	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	31	23	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	31	24	displaced-	displaced-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	31	25	track	track	NN
work_lfiiutwqordgpkqpj7skhel7uq	31	26	trigger	trigger	NNP
work_lfiiutwqordgpkqpj7skhel7uq	31	27	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	32	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	32	2	obtain	obtain	VBP
work_lfiiutwqordgpkqpj7skhel7uq	32	3	B(B0s	B(B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	32	4	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	32	5	φφ	φφ	NN
work_lfiiutwqordgpkqpj7skhel7uq	32	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	32	7	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	32	8	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	32	9	2.40	2.40	CD
work_lfiiutwqordgpkqpj7skhel7uq	32	10	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	32	11	0.21	0.21	CD
work_lfiiutwqordgpkqpj7skhel7uq	32	12	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	32	13	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	32	14	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	32	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	33	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	33	2	0.27	0.27	CD
work_lfiiutwqordgpkqpj7skhel7uq	33	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	33	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	33	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	33	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	34	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	34	2	0.82(B	0.82(b	CD
work_lfiiutwqordgpkqpj7skhel7uq	34	3	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	34	4	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	34	5	×	×	NN
work_lfiiutwqordgpkqpj7skhel7uq	34	6	10−5	10−5	CD
work_lfiiutwqordgpkqpj7skhel7uq	34	7	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	34	8	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	34	9	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	34	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	35	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	35	2	last	last	JJ
work_lfiiutwqordgpkqpj7skhel7uq	35	3	uncertainty	uncertainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	35	4	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	35	5	due	due	JJ
work_lfiiutwqordgpkqpj7skhel7uq	35	6	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	35	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	35	8	uncertainty	uncertainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	35	9	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	35	10	B(B0s	B(B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	35	11	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	35	12	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	35	13	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	35	14	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	35	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	35	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	35	17	used	use	VBN
work_lfiiutwqordgpkqpj7skhel7uq	35	18	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	35	19	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	35	20	reference	reference	NN
work_lfiiutwqordgpkqpj7skhel7uq	35	21	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	36	1	Three	three	CD
work_lfiiutwqordgpkqpj7skhel7uq	36	2	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	36	3	amplitudes	amplitude	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	36	4	enrich	enrich	VBP
work_lfiiutwqordgpkqpj7skhel7uq	36	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	36	6	phe-	phe-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	36	7	nomenology	nomenology	NN
work_lfiiutwqordgpkqpj7skhel7uq	36	8	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	36	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	36	10	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	36	11	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	36	12	φφ	φφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	36	13	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	36	14	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	37	1	They	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	37	2	cor-	cor-	RB
work_lfiiutwqordgpkqpj7skhel7uq	37	3	respond	respond	VB
work_lfiiutwqordgpkqpj7skhel7uq	37	4	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	37	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	37	6	allowed	allow	VBN
work_lfiiutwqordgpkqpj7skhel7uq	37	7	values	value	NNS
work_lfiiutwqordgpkqpj7skhel7uq	37	8	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	37	9	orbital	orbital	JJ
work_lfiiutwqordgpkqpj7skhel7uq	37	10	angu-	angu-	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	11	lar	lar	NNP
work_lfiiutwqordgpkqpj7skhel7uq	37	12	momentum	momentum	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	13	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	37	14	ℓ	ℓ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	37	15	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	37	16	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	37	17	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	37	18	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	37	19	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	37	20	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	37	21	2	2	LS
work_lfiiutwqordgpkqpj7skhel7uq	37	22	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	37	23	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	37	24	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	37	25	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	26	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	37	27	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	37	28	pseudo	pseudo	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	29	-	-	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	30	scalar	scalar	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	31	into	into	IN
work_lfiiutwqordgpkqpj7skhel7uq	37	32	two	two	CD
work_lfiiutwqordgpkqpj7skhel7uq	37	33	vector	vector	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	34	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	37	35	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	37	36	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	37	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	37	38	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	39	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	37	40	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	37	41	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	38	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	38	2	determination	determination	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	4	these	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	38	5	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	6	may	may	MD
work_lfiiutwqordgpkqpj7skhel7uq	38	7	contribute	contribute	VB
work_lfiiutwqordgpkqpj7skhel7uq	38	8	useful	useful	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	9	insight	insight	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	10	into	into	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	38	12	puzzling	puzzle	VBG
work_lfiiutwqordgpkqpj7skhel7uq	38	13	pic-	pic-	XX
work_lfiiutwqordgpkqpj7skhel7uq	38	14	ture	ture	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	15	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	16	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	17	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	38	18	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	19	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	20	polarizations	polarization	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	21	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	38	22	where	where	WRB
work_lfiiutwqordgpkqpj7skhel7uq	38	23	experi-	experi-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	24	mental	mental	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	25	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	26	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	27	B0(+	B0(+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	28	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	29	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	38	30	φK∗(+	φK∗(+	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	31	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	32	decays	decay	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	38	33	disfavor	disfavor	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	34	first	first	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	35	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	38	36	order	order	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	37	predictions	prediction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	38	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	39	small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	40	transverse	transverse	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	41	compo-	compo-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	42	nent	nent	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	43	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	44	fT	fT	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	45	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	38	46	O(m2V	O(m2V	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	47	/m2B	/m2B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	48	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	49	≈	≈	NNP
work_lfiiutwqordgpkqpj7skhel7uq	38	50	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	38	51	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	38	52	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	38	53	where	where	WRB
work_lfiiutwqordgpkqpj7skhel7uq	38	54	m	m	PRP
work_lfiiutwqordgpkqpj7skhel7uq	38	55	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	38	56	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	38	57	masses	masse	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	58	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	59	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	38	60	possibly	possibly	RB
work_lfiiutwqordgpkqpj7skhel7uq	38	61	suggesting	suggest	VBG
work_lfiiutwqordgpkqpj7skhel7uq	38	62	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	63	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	38	64	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	65	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	66	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	38	67	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	38	68	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	69	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	38	70	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	38	71	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	39	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	39	2	report	report	VBP
work_lfiiutwqordgpkqpj7skhel7uq	39	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	39	4	first	first	JJ
work_lfiiutwqordgpkqpj7skhel7uq	39	5	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	39	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	39	7	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	39	8	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	39	9	φφ	φφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	39	10	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	39	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	39	12	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	39	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	39	14	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	39	15	employed	employ	VBN
work_lfiiutwqordgpkqpj7skhel7uq	39	16	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	39	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	39	18	branching	branch	VBG
work_lfiiutwqordgpkqpj7skhel7uq	39	19	fraction	fraction	NN
work_lfiiutwqordgpkqpj7skhel7uq	39	20	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	39	21	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	39	22	3	3	CD
work_lfiiutwqordgpkqpj7skhel7uq	39	23	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	39	24	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	40	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	40	2	fit	fit	VBP
work_lfiiutwqordgpkqpj7skhel7uq	40	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	40	4	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	40	5	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	40	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	40	7	four	four	CD
work_lfiiutwqordgpkqpj7skhel7uq	40	8	kaons	kaon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	40	9	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	40	10	their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	40	11	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	40	12	distri-	distri-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	40	13	butions	bution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	40	14	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	40	15	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	40	16	helicity	helicity	NN
work_lfiiutwqordgpkqpj7skhel7uq	40	17	basis	basis	NN
work_lfiiutwqordgpkqpj7skhel7uq	40	18	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	40	19	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	41	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	41	2	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	41	3	accep-	accep-	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	4	tance	tance	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	41	6	extracted	extract	VBN
work_lfiiutwqordgpkqpj7skhel7uq	41	7	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	41	8	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	41	10	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	41	11	validated	validate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	41	12	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	41	13	measuring	measure	VBG
work_lfiiutwqordgpkqpj7skhel7uq	41	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	41	15	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	16	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	41	17	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	41	18	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	41	19	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	41	20	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	41	21	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	41	22	decays	decay	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	41	23	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	41	24	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	41	25	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	41	26	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	41	27	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	41	28	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	41	29	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	41	30	indepen-	indepen-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	41	31	dent	dent	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	32	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	41	33	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	41	34	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	41	35	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	41	36	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	42	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	42	2	small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	42	3	bias	bias	NN
work_lfiiutwqordgpkqpj7skhel7uq	42	4	due	due	JJ
work_lfiiutwqordgpkqpj7skhel7uq	42	5	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	42	6	decay-	decay-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	42	7	length	length	NN
work_lfiiutwqordgpkqpj7skhel7uq	42	8	requirements	requirement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	42	9	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	42	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	42	11	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	42	12	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	42	13	included	include	VBN
work_lfiiutwqordgpkqpj7skhel7uq	42	14	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	42	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	42	16	systematic	systematic	JJ
work_lfiiutwqordgpkqpj7skhel7uq	42	17	uncertainties	uncertainty	NNS
work_lfiiutwqordgpkqpj7skhel7uq	42	18	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	43	1	In	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	43	2	analogy	analogy	NN
work_lfiiutwqordgpkqpj7skhel7uq	43	3	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	43	4	measurements	measurement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	43	5	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	43	6	similar	similar	JJ
work_lfiiutwqordgpkqpj7skhel7uq	43	7	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	43	8	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	43	9	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	43	10	penguin	penguin	NN
work_lfiiutwqordgpkqpj7skhel7uq	43	11	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	43	12	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	43	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	43	14	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	43	15	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	43	16	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	43	17	odds	odd	NNS
work_lfiiutwqordgpkqpj7skhel7uq	43	18	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	43	19	naive	naive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	43	20	theory	theory	NN
work_lfiiutwqordgpkqpj7skhel7uq	43	21	predic-	predic-	NN
work_lfiiutwqordgpkqpj7skhel7uq	43	22	tions	tion	NNS
work_lfiiutwqordgpkqpj7skhel7uq	43	23	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	44	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	44	2	measure	measure	VBP
work_lfiiutwqordgpkqpj7skhel7uq	44	3	|A0|2	|A0|2	NNS
work_lfiiutwqordgpkqpj7skhel7uq	44	4	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	44	5	0.348±0.041	0.348±0.041	CD
work_lfiiutwqordgpkqpj7skhel7uq	44	6	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	44	7	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	44	8	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	45	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	45	2	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	45	3	0.021	0.021	CD
work_lfiiutwqordgpkqpj7skhel7uq	45	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	45	5	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	45	6	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	46	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	46	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	46	3	|A|||2	|A|||2	NNP
work_lfiiutwqordgpkqpj7skhel7uq	46	4	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	46	5	0.287	0.287	CD
work_lfiiutwqordgpkqpj7skhel7uq	46	6	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	46	7	0.043	0.043	CD
work_lfiiutwqordgpkqpj7skhel7uq	46	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	46	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	46	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	46	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	47	1	±	±	DT
work_lfiiutwqordgpkqpj7skhel7uq	47	2	0.011	0.011	CD
work_lfiiutwqordgpkqpj7skhel7uq	47	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	47	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	47	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	48	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	48	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	48	3	|A⊥|2	|a⊥|2	XX
work_lfiiutwqordgpkqpj7skhel7uq	48	4	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	48	5	0.365	0.365	CD
work_lfiiutwqordgpkqpj7skhel7uq	48	6	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	48	7	0.044	0.044	CD
work_lfiiutwqordgpkqpj7skhel7uq	48	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	48	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	48	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	48	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	49	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	49	2	0.027	0.027	CD
work_lfiiutwqordgpkqpj7skhel7uq	49	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	49	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	49	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	49	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	50	1	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	50	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	50	3	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	50	4	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	50	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	50	6	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	50	7	cos(δ||	cos(δ||	NNPS
work_lfiiutwqordgpkqpj7skhel7uq	50	8	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	50	9	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	50	10	−0.91	−0.91	NNP
work_lfiiutwqordgpkqpj7skhel7uq	50	11	+	+	SYM
work_lfiiutwqordgpkqpj7skhel7uq	50	12	0.15−0.13	0.15−0.13	CD
work_lfiiutwqordgpkqpj7skhel7uq	50	13	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	50	14	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	50	15	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	50	16	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	51	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	51	2	0.09	0.09	CD
work_lfiiutwqordgpkqpj7skhel7uq	51	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	51	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	51	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	51	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	52	1	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	52	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	52	3	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	52	4	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	52	5	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	52	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	52	7	A||	a||	NN
work_lfiiutwqordgpkqpj7skhel7uq	52	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	52	9	A0	a0	NN
work_lfiiutwqordgpkqpj7skhel7uq	52	10	am-	am-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	52	11	plitudes	plitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	52	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	53	1	Further	further	JJ
work_lfiiutwqordgpkqpj7skhel7uq	53	2	extensions	extension	NNS
work_lfiiutwqordgpkqpj7skhel7uq	53	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	53	4	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	53	5	analysis	analysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	53	6	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	53	7	larger	large	JJR
work_lfiiutwqordgpkqpj7skhel7uq	53	8	samples	sample	NNS
work_lfiiutwqordgpkqpj7skhel7uq	53	9	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	53	10	provide	provide	VB
work_lfiiutwqordgpkqpj7skhel7uq	53	11	information	information	NN
work_lfiiutwqordgpkqpj7skhel7uq	53	12	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	53	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	53	14	decay	decay	JJ
work_lfiiutwqordgpkqpj7skhel7uq	53	15	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	53	16	width	width	JJ
work_lfiiutwqordgpkqpj7skhel7uq	53	17	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	53	18	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	53	19	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	53	20	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	53	21	mesons	meson	NNS
work_lfiiutwqordgpkqpj7skhel7uq	53	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	54	1	3	3	LS
work_lfiiutwqordgpkqpj7skhel7uq	54	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	55	1	Rare	Rare	NNP
work_lfiiutwqordgpkqpj7skhel7uq	55	2	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	3	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	55	4	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	5	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	55	6	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	7	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	55	8	hµ+µ−	hµ+µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	55	9	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	55	10	Decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	55	11	mediated	mediate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	55	12	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	55	13	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	14	changing	change	VBG
work_lfiiutwqordgpkqpj7skhel7uq	55	15	neutral	neutral	JJ
work_lfiiutwqordgpkqpj7skhel7uq	55	16	currents	current	NNS
work_lfiiutwqordgpkqpj7skhel7uq	55	17	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	55	18	such	such	JJ
work_lfiiutwqordgpkqpj7skhel7uq	55	19	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	55	20	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	55	21	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	55	22	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	55	23	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	55	24	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	55	25	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	26	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	55	27	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	28	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	55	29	hµ+µ−	hµ+µ−	CD
work_lfiiutwqordgpkqpj7skhel7uq	55	30	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	55	31	highly	highly	RB
work_lfiiutwqordgpkqpj7skhel7uq	55	32	suppressed	suppress	VBN
work_lfiiutwqordgpkqpj7skhel7uq	55	33	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	55	34	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	55	35	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	55	36	because	because	IN
work_lfiiutwqordgpkqpj7skhel7uq	55	37	they	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	55	38	occur	occur	VBP
work_lfiiutwqordgpkqpj7skhel7uq	55	39	only	only	RB
work_lfiiutwqordgpkqpj7skhel7uq	55	40	through	through	IN
work_lfiiutwqordgpkqpj7skhel7uq	55	41	higher	high	JJR
work_lfiiutwqordgpkqpj7skhel7uq	55	42	order	order	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	43	loop	loop	NN
work_lfiiutwqordgpkqpj7skhel7uq	55	44	diagrams	diagram	NNS
work_lfiiutwqordgpkqpj7skhel7uq	55	45	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	56	1	Their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	56	2	phenomenology	phenomenology	NN
work_lfiiutwqordgpkqpj7skhel7uq	56	3	provide	provide	VBP
work_lfiiutwqordgpkqpj7skhel7uq	56	4	enhanced	enhance	VBD
work_lfiiutwqordgpkqpj7skhel7uq	56	5	sensitiv-	sensitiv-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	56	6	ity	ity	NN
work_lfiiutwqordgpkqpj7skhel7uq	56	7	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	56	8	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	56	9	broad	broad	JJ
work_lfiiutwqordgpkqpj7skhel7uq	56	10	class	class	NN
work_lfiiutwqordgpkqpj7skhel7uq	56	11	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	56	12	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	56	13	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	56	14	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	56	15	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	56	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	57	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	57	2	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	57	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	57	4	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	57	5	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	57	6	→	→	NFP
work_lfiiutwqordgpkqpj7skhel7uq	57	7	µ+µ−	µ+µ−	CD
work_lfiiutwqordgpkqpj7skhel7uq	57	8	rate	rate	NN
work_lfiiutwqordgpkqpj7skhel7uq	57	9	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	57	10	proportional	proportional	JJ
work_lfiiutwqordgpkqpj7skhel7uq	57	11	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	57	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	57	13	CKM	CKM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	57	14	matrix	matrix	NN
work_lfiiutwqordgpkqpj7skhel7uq	57	15	element	element	NN
work_lfiiutwqordgpkqpj7skhel7uq	57	16	|Vtd|2(|Vts|2	|Vtd|2(|Vts|2	NFP
work_lfiiutwqordgpkqpj7skhel7uq	57	17	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	57	18	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	57	19	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	57	20	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	57	21	further	further	RB
work_lfiiutwqordgpkqpj7skhel7uq	57	22	suppressed	suppress	VBN
work_lfiiutwqordgpkqpj7skhel7uq	57	23	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	57	24	helicity	helicity	NN
work_lfiiutwqordgpkqpj7skhel7uq	57	25	factors	factor	NNS
work_lfiiutwqordgpkqpj7skhel7uq	57	26	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	58	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	58	2	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	58	3	expecta-	expecta-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	58	4	tions	tion	NNS
work_lfiiutwqordgpkqpj7skhel7uq	58	5	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	58	6	these	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	58	7	branching	branching	NN
work_lfiiutwqordgpkqpj7skhel7uq	58	8	fractions	fraction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	58	9	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	58	10	O(10−9	O(10−9	NNP
work_lfiiutwqordgpkqpj7skhel7uq	58	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	58	12	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	58	13	ten	ten	CD
work_lfiiutwqordgpkqpj7skhel7uq	58	14	times	time	NNS
work_lfiiutwqordgpkqpj7skhel7uq	58	15	smaller	small	JJR
work_lfiiutwqordgpkqpj7skhel7uq	58	16	than	than	IN
work_lfiiutwqordgpkqpj7skhel7uq	58	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	58	18	current	current	JJ
work_lfiiutwqordgpkqpj7skhel7uq	58	19	experimental	experimental	JJ
work_lfiiutwqordgpkqpj7skhel7uq	58	20	sensitivity	sensitivity	NN
work_lfiiutwqordgpkqpj7skhel7uq	58	21	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	59	1	An	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	59	2	observation	observation	NN
work_lfiiutwqordgpkqpj7skhel7uq	59	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	59	4	these	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	59	5	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	59	6	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	59	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	59	8	Tevatron	Tevatron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	59	9	would	would	MD
work_lfiiutwqordgpkqpj7skhel7uq	59	10	unambiguously	unambiguously	RB
work_lfiiutwqordgpkqpj7skhel7uq	59	11	indicate	indicate	VB
work_lfiiutwqordgpkqpj7skhel7uq	59	12	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	59	13	beyond	beyond	IN
work_lfiiutwqordgpkqpj7skhel7uq	59	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	59	15	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	59	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	60	1	Or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	60	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	60	3	even	even	RB
work_lfiiutwqordgpkqpj7skhel7uq	60	4	improved	improve	VBD
work_lfiiutwqordgpkqpj7skhel7uq	60	5	exclusion-	exclusion-	NN
work_lfiiutwqordgpkqpj7skhel7uq	60	6	limits	limit	NNS
work_lfiiutwqordgpkqpj7skhel7uq	60	7	strongly	strongly	RB
work_lfiiutwqordgpkqpj7skhel7uq	60	8	constrain	constrain	VBP
work_lfiiutwqordgpkqpj7skhel7uq	60	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	60	10	available	available	JJ
work_lfiiutwqordgpkqpj7skhel7uq	60	11	space	space	NN
work_lfiiutwqordgpkqpj7skhel7uq	60	12	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	60	13	parameters	parameter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	60	14	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	60	15	several	several	JJ
work_lfiiutwqordgpkqpj7skhel7uq	60	16	SUSY	susy	NN
work_lfiiutwqordgpkqpj7skhel7uq	60	17	models	model	NNS
work_lfiiutwqordgpkqpj7skhel7uq	60	18	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	61	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	61	2	latest	late	JJS
work_lfiiutwqordgpkqpj7skhel7uq	61	3	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	61	4	search	search	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	5	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	61	6	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	7	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	61	8	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	61	9	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	61	10	→	→	NFP
work_lfiiutwqordgpkqpj7skhel7uq	61	11	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	12	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	61	13	uses	use	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	61	14	3.7	3.7	CD
work_lfiiutwqordgpkqpj7skhel7uq	61	15	fb−1	fb−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	61	16	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	61	17	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	61	18	collected	collect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	61	19	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	61	20	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	61	21	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	61	22	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	23	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	61	24	pT(µ	pt(µ	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	25	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	61	26	>	>	XX
work_lfiiutwqordgpkqpj7skhel7uq	61	27	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	61	28	GeV	gev	NN
work_lfiiutwqordgpkqpj7skhel7uq	61	29	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	61	30	c	c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	61	31	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	61	32	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	61	33	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	61	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	62	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	62	2	loose	loose	JJ
work_lfiiutwqordgpkqpj7skhel7uq	62	3	pres-	pres-	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	4	election	election	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	5	based	base	VBN
work_lfiiutwqordgpkqpj7skhel7uq	62	6	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	62	7	opposite	opposite	JJ
work_lfiiutwqordgpkqpj7skhel7uq	62	8	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	62	9	charge	charge	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	10	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	62	11	trans-	trans-	XX
work_lfiiutwqordgpkqpj7skhel7uq	62	12	verse	verse	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	13	momentum	momentum	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	14	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	62	15	muon	muon	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	16	identification	identification	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	17	criteria	criterion	NNS
work_lfiiutwqordgpkqpj7skhel7uq	62	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	62	19	quality	quality	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	20	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	62	21	matching	matching	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	22	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	62	23	track	track	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	24	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	62	25	energy	energy	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	26	deposit	deposit	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	27	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	62	28	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	62	29	calorimeter	calorimeter	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	30	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	62	31	specific	specific	JJ
work_lfiiutwqordgpkqpj7skhel7uq	62	32	ionization	ionization	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	33	energy	energy	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	34	loss	loss	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	35	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	62	36	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	62	37	rejects	reject	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	62	38	combinatoric	combinatoric	JJ
work_lfiiutwqordgpkqpj7skhel7uq	62	39	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	40	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	62	41	charmless	charmless	NN
work_lfiiutwqordgpkqpj7skhel7uq	62	42	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	62	43	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	62	44	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	63	1	Further	further	JJ
work_lfiiutwqordgpkqpj7skhel7uq	63	2	rejection	rejection	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	63	4	achieved	achieve	VBN
work_lfiiutwqordgpkqpj7skhel7uq	63	5	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	6	se-	se-	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	7	lecting	lecte	VBG
work_lfiiutwqordgpkqpj7skhel7uq	63	8	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	63	10	decay	decay	VB
work_lfiiutwqordgpkqpj7skhel7uq	63	11	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	63	12	length	length	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	13	significance	significance	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	14	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	63	15	λ	λ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	16	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	63	17	σλ	σλ	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	18	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	63	19	against	against	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	20	prompt	prompt	JJ
work_lfiiutwqordgpkqpj7skhel7uq	63	21	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	22	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	63	23	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	24	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	63	25	isolation	isolation	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	26	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	27	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	63	28	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	29	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	63	30	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	31	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	63	32	meson	meson	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	33	candidate	candidate	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	34	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	63	35	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	63	36	exploit	exploit	VB
work_lfiiutwqordgpkqpj7skhel7uq	63	37	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	63	38	harder	hard	JJR
work_lfiiutwqordgpkqpj7skhel7uq	63	39	fragmentation	fragmentation	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	40	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	41	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	42	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	63	43	mesons	meson	NNS
work_lfiiutwqordgpkqpj7skhel7uq	63	44	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	45	respect	respect	NN
work_lfiiutwqordgpkqpj7skhel7uq	63	46	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	63	47	light-	light-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	48	quark	quark	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	49	background	background	NNP
work_lfiiutwqordgpkqpj7skhel7uq	63	50	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	64	1	In	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	64	2	addition	addition	NN
work_lfiiutwqordgpkqpj7skhel7uq	64	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	64	4	we	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	64	5	require	require	VBP
work_lfiiutwqordgpkqpj7skhel7uq	64	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	64	7	candidate	candidate	NN
work_lfiiutwqordgpkqpj7skhel7uq	64	8	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	64	9	point	point	VB
work_lfiiutwqordgpkqpj7skhel7uq	64	10	back	back	RB
work_lfiiutwqordgpkqpj7skhel7uq	64	11	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	64	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	64	13	primary	primary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	64	14	vertex	vertex	NN
work_lfiiutwqordgpkqpj7skhel7uq	64	15	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	64	16	further	further	RB
work_lfiiutwqordgpkqpj7skhel7uq	64	17	reduce	reduce	VB
work_lfiiutwqordgpkqpj7skhel7uq	64	18	combinatoric	combinatoric	JJ
work_lfiiutwqordgpkqpj7skhel7uq	64	19	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	64	20	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	64	21	partially	partially	RB
work_lfiiutwqordgpkqpj7skhel7uq	64	22	reconstructed	reconstruct	VBN
work_lfiiutwqordgpkqpj7skhel7uq	64	23	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	64	24	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	64	25	hadron	hadron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	64	26	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	64	27	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	65	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	65	2	re-	re-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	65	3	sulting	sulte	VBG
work_lfiiutwqordgpkqpj7skhel7uq	65	4	event	event	NN
work_lfiiutwqordgpkqpj7skhel7uq	65	5	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	65	6	contains	contain	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	65	7	about	about	RB
work_lfiiutwqordgpkqpj7skhel7uq	65	8	55,000	55,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	65	9	can-	can-	NN
work_lfiiutwqordgpkqpj7skhel7uq	65	10	3	3	CD
work_lfiiutwqordgpkqpj7skhel7uq	65	11	didates	didate	NNS
work_lfiiutwqordgpkqpj7skhel7uq	65	12	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	65	13	mostly	mostly	RB
work_lfiiutwqordgpkqpj7skhel7uq	65	14	coming	come	VBG
work_lfiiutwqordgpkqpj7skhel7uq	65	15	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	65	16	combinatoric	combinatoric	NNP
work_lfiiutwqordgpkqpj7skhel7uq	65	17	back-	back-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	65	18	ground	ground	NN
work_lfiiutwqordgpkqpj7skhel7uq	65	19	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	66	1	To	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	66	2	further	further	RB
work_lfiiutwqordgpkqpj7skhel7uq	66	3	enhance	enhance	VB
work_lfiiutwqordgpkqpj7skhel7uq	66	4	purity	purity	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	5	we	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	66	6	use	use	VBP
work_lfiiutwqordgpkqpj7skhel7uq	66	7	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	66	8	ar-	ar-	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	9	tificial	tificial	JJ
work_lfiiutwqordgpkqpj7skhel7uq	66	10	neural	neural	JJ
work_lfiiutwqordgpkqpj7skhel7uq	66	11	network	network	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	12	classifier	classifier	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	13	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	66	14	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	66	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	66	16	that	that	IN
work_lfiiutwqordgpkqpj7skhel7uq	66	17	com-	com-	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	18	bines	bin	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	66	19	information	information	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	20	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	66	21	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	66	22	above	above	JJ
work_lfiiutwqordgpkqpj7skhel7uq	66	23	observables	observable	NNS
work_lfiiutwqordgpkqpj7skhel7uq	66	24	into	into	IN
work_lfiiutwqordgpkqpj7skhel7uq	66	25	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	66	26	single	single	JJ
work_lfiiutwqordgpkqpj7skhel7uq	66	27	scalar	scalar	JJ
work_lfiiutwqordgpkqpj7skhel7uq	66	28	discriminating	discriminating	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	29	quantity	quantity	NN
work_lfiiutwqordgpkqpj7skhel7uq	66	30	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	67	1	Signal	signal	JJ
work_lfiiutwqordgpkqpj7skhel7uq	67	2	dis-	dis-	NN
work_lfiiutwqordgpkqpj7skhel7uq	67	3	tributions	tribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	67	4	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	67	5	modeled	model	VBN
work_lfiiutwqordgpkqpj7skhel7uq	67	6	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	67	7	detailed	detailed	JJ
work_lfiiutwqordgpkqpj7skhel7uq	67	8	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	67	9	;	;	,
work_lfiiutwqordgpkqpj7skhel7uq	67	10	backgrounds	background	NNS
work_lfiiutwqordgpkqpj7skhel7uq	67	11	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	67	12	mass	mass	JJ
work_lfiiutwqordgpkqpj7skhel7uq	67	13	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	67	14	sidebands	sideband	NNS
work_lfiiutwqordgpkqpj7skhel7uq	67	15	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	67	16	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	67	17	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	68	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	68	2	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	68	3	rate	rate	NN
work_lfiiutwqordgpkqpj7skhel7uq	68	4	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	68	5	normalized	normalized	JJ
work_lfiiutwqordgpkqpj7skhel7uq	68	6	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	68	7	20,000	20,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	68	8	B+	B+	NNS
work_lfiiutwqordgpkqpj7skhel7uq	68	9	→	→	.
work_lfiiutwqordgpkqpj7skhel7uq	68	10	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	68	11	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	68	12	ψ(→	ψ(→	NNP
work_lfiiutwqordgpkqpj7skhel7uq	68	13	µ+µ−)K+	µ+µ−)K+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	68	14	reconstructed	reconstruct	VBN
work_lfiiutwqordgpkqpj7skhel7uq	68	15	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	68	16	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	68	17	same	same	JJ
work_lfiiutwqordgpkqpj7skhel7uq	68	18	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	68	19	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	69	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	69	2	ratio	ratio	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	69	4	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	5	acceptances	acceptance	NNS
work_lfiiutwqordgpkqpj7skhel7uq	69	6	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	69	7	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	69	9	normalization	normalization	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	10	modes	mode	NNS
work_lfiiutwqordgpkqpj7skhel7uq	69	11	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	12	≃	≃	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	13	25	25	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	14	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	16	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	69	17	derived	derive	VBN
work_lfiiutwqordgpkqpj7skhel7uq	69	18	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	69	19	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	20	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	69	21	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	69	22	relative	relative	JJ
work_lfiiutwqordgpkqpj7skhel7uq	69	23	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	24	efficiencies	efficiency	NNS
work_lfiiutwqordgpkqpj7skhel7uq	69	25	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	26	≃	≃	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	27	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	28	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	29	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	69	30	extracted	extract	VBN
work_lfiiutwqordgpkqpj7skhel7uq	69	31	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	69	32	unbiased	unbiased	JJ
work_lfiiutwqordgpkqpj7skhel7uq	69	33	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	69	34	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	69	35	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	69	36	rel-	rel-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	69	37	ative	ative	JJ
work_lfiiutwqordgpkqpj7skhel7uq	69	38	offline	offline	JJ
work_lfiiutwqordgpkqpj7skhel7uq	69	39	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	69	40	selection	selection	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	41	efficiency	efficiency	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	42	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	43	≃	≃	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	44	80	80	CD
work_lfiiutwqordgpkqpj7skhel7uq	69	45	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	46	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	69	47	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	69	48	de-	de-	RB
work_lfiiutwqordgpkqpj7skhel7uq	69	49	termined	termine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	69	50	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	69	51	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	69	52	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	69	53	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	69	54	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	70	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	70	2	ex-	ex-	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	3	pected	pecte	VBD
work_lfiiutwqordgpkqpj7skhel7uq	70	4	average	average	JJ
work_lfiiutwqordgpkqpj7skhel7uq	70	5	number	number	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	70	7	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	8	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	70	9	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	70	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	70	11	search	search	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	12	region	region	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	13	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	70	14	obtained	obtain	VBN
work_lfiiutwqordgpkqpj7skhel7uq	70	15	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	70	16	extrapolating	extrapolate	VBG
work_lfiiutwqordgpkqpj7skhel7uq	70	17	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	70	18	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	70	19	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	70	20	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	70	21	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	70	22	sidebands	sideband	NNS
work_lfiiutwqordgpkqpj7skhel7uq	70	23	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	71	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	71	2	validity	validity	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	71	4	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	71	5	extrapolation	extrapolation	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	6	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	71	7	checked	check	VBN
work_lfiiutwqordgpkqpj7skhel7uq	71	8	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	71	9	comparing	compare	VBG
work_lfiiutwqordgpkqpj7skhel7uq	71	10	pre-	pre-	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	11	dicted	dicte	VBN
work_lfiiutwqordgpkqpj7skhel7uq	71	12	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	71	13	observed	observed	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	14	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	15	yields	yield	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	16	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	71	17	sev-	sev-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	18	eral	eral	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	19	independent	independent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	20	control	control	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	21	samples	sample	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	22	including	include	VBG
work_lfiiutwqordgpkqpj7skhel7uq	71	23	like-	like-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	24	sign	sign	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	25	dimuons	dimuon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	26	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	71	27	opposite	opposite	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	28	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	71	29	sign	sign	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	30	dimuons	dimuon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	31	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	71	32	neg-	neg-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	71	33	ative	ative	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	34	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	35	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	71	36	length	length	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	37	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	71	38	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	71	39	opposite	opposite	JJ
work_lfiiutwqordgpkqpj7skhel7uq	71	40	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	71	41	sign	sign	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	42	dimuons	dimuon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	43	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	71	44	one	one	CD
work_lfiiutwqordgpkqpj7skhel7uq	71	45	muon	muon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	46	failing	fail	VBG
work_lfiiutwqordgpkqpj7skhel7uq	71	47	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	71	48	muon	muon	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	49	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	71	50	quality	quality	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	51	require-	require-	NN
work_lfiiutwqordgpkqpj7skhel7uq	71	52	ments	ment	NNS
work_lfiiutwqordgpkqpj7skhel7uq	71	53	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	72	1	Small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	72	2	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	72	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	72	4	punch	punch	NN
work_lfiiutwqordgpkqpj7skhel7uq	72	5	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	72	6	through	through	RP
work_lfiiutwqordgpkqpj7skhel7uq	72	7	hadrons	hadron	NNS
work_lfiiutwqordgpkqpj7skhel7uq	72	8	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	72	9	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	72	10	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	72	11	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	72	12	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	72	13	→	→	NFP
work_lfiiutwqordgpkqpj7skhel7uq	72	14	h+h′−	h+h′−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	72	15	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	72	16	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	72	17	included	include	VBN
work_lfiiutwqordgpkqpj7skhel7uq	72	18	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	72	19	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	72	20	estimate	estimate	NN
work_lfiiutwqordgpkqpj7skhel7uq	72	21	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	72	22	total	total	JJ
work_lfiiutwqordgpkqpj7skhel7uq	72	23	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	72	24	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	73	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	73	2	optimize	optimize	VBP
work_lfiiutwqordgpkqpj7skhel7uq	73	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	73	4	limit	limit	NN
work_lfiiutwqordgpkqpj7skhel7uq	73	5	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	73	6	combining	combine	VBG
work_lfiiutwqordgpkqpj7skhel7uq	73	7	three	three	CD
work_lfiiutwqordgpkqpj7skhel7uq	73	8	independent	independent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	73	9	ranges	range	NNS
work_lfiiutwqordgpkqpj7skhel7uq	73	10	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	73	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	73	12	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	73	13	discriminator	discriminator	NN
work_lfiiutwqordgpkqpj7skhel7uq	73	14	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	73	15	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	73	16	efficiencies	efficiency	NNS
work_lfiiutwqordgpkqpj7skhel7uq	73	17	rang-	rang-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	73	18	ing	ing	NNP
work_lfiiutwqordgpkqpj7skhel7uq	73	19	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	73	20	44	44	CD
work_lfiiutwqordgpkqpj7skhel7uq	73	21	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	73	22	12	12	CD
work_lfiiutwqordgpkqpj7skhel7uq	73	23	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	73	24	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	73	25	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	73	26	obtain	obtain	VB
work_lfiiutwqordgpkqpj7skhel7uq	73	27	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	73	28	a	a	FW
work_lfiiutwqordgpkqpj7skhel7uq	73	29	priori	priori	FW
work_lfiiutwqordgpkqpj7skhel7uq	73	30	best	good	JJS
work_lfiiutwqordgpkqpj7skhel7uq	73	31	ex-	ex-	NN
work_lfiiutwqordgpkqpj7skhel7uq	73	32	pected	pecte	VBD
work_lfiiutwqordgpkqpj7skhel7uq	73	33	90	90	CD
work_lfiiutwqordgpkqpj7skhel7uq	73	34	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	73	35	C.L.	C.L.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	74	1	upper	upper	JJ
work_lfiiutwqordgpkqpj7skhel7uq	74	2	limit	limit	NN
work_lfiiutwqordgpkqpj7skhel7uq	74	3	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	74	4	B(B0	B(B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	74	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	74	6	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	74	7	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	74	8	→	→	NFP
work_lfiiutwqordgpkqpj7skhel7uq	74	9	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	74	10	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	74	11	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	74	12	see	see	VB
work_lfiiutwqordgpkqpj7skhel7uq	74	13	fig	fig	NN
work_lfiiutwqordgpkqpj7skhel7uq	74	14	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	75	1	1	1	LS
work_lfiiutwqordgpkqpj7skhel7uq	75	2	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	75	3	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	76	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	76	2	resulting	result	VBG
work_lfiiutwqordgpkqpj7skhel7uq	76	3	90	90	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	5	95)%	95)%	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	6	CL	CL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	76	7	upper-	upper-	NN
work_lfiiutwqordgpkqpj7skhel7uq	76	8	limits	limit	NNS
work_lfiiutwqordgpkqpj7skhel7uq	76	9	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	76	10	B(B0s	B(B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	76	11	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	76	12	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	76	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	14	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	76	15	3.6(4.3	3.6(4.3	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	16	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	17	×	×	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	18	10−8	10−8	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	19	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	76	20	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	21	1	1	LS
work_lfiiutwqordgpkqpj7skhel7uq	76	22	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	23	B(B0	b(b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	76	24	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	76	25	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	76	26	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	27	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	76	28	6.0(7.6	6.0(7.6	NN
work_lfiiutwqordgpkqpj7skhel7uq	76	29	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	76	30	×	×	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	31	10−9	10−9	CD
work_lfiiutwqordgpkqpj7skhel7uq	76	32	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	77	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	77	2	2	2	LS
work_lfiiutwqordgpkqpj7skhel7uq	77	3	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	77	4	These	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	77	5	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	77	6	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	77	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	77	8	most	most	RBS
work_lfiiutwqordgpkqpj7skhel7uq	77	9	stringent	stringent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	77	10	currently	currently	RB
work_lfiiutwqordgpkqpj7skhel7uq	77	11	available	available	JJ
work_lfiiutwqordgpkqpj7skhel7uq	77	12	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	77	13	reduce	reduce	VBP
work_lfiiutwqordgpkqpj7skhel7uq	77	14	significantly	significantly	RB
work_lfiiutwqordgpkqpj7skhel7uq	77	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	77	16	allowed	allow	VBN
work_lfiiutwqordgpkqpj7skhel7uq	77	17	pa-	pa-	CC
work_lfiiutwqordgpkqpj7skhel7uq	77	18	rameter	ramet	JJR
work_lfiiutwqordgpkqpj7skhel7uq	77	19	space	space	NN
work_lfiiutwqordgpkqpj7skhel7uq	77	20	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	77	21	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	77	22	broad	broad	JJ
work_lfiiutwqordgpkqpj7skhel7uq	77	23	range	range	NN
work_lfiiutwqordgpkqpj7skhel7uq	77	24	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	77	25	SUSY	susy	NN
work_lfiiutwqordgpkqpj7skhel7uq	77	26	models	model	NNS
work_lfiiutwqordgpkqpj7skhel7uq	77	27	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	78	1	An	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	78	2	update	update	NN
work_lfiiutwqordgpkqpj7skhel7uq	78	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	78	4	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	78	5	analysis	analysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	78	6	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	78	7	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	78	8	doubled	double	VBN
work_lfiiutwqordgpkqpj7skhel7uq	78	9	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	78	10	size	size	NN
work_lfiiutwqordgpkqpj7skhel7uq	78	11	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	78	12	further	further	RB
work_lfiiutwqordgpkqpj7skhel7uq	78	13	improve	improve	VB
work_lfiiutwqordgpkqpj7skhel7uq	78	14	them	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	78	15	soon	soon	RB
work_lfiiutwqordgpkqpj7skhel7uq	78	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	79	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	79	2	also	also	RB
work_lfiiutwqordgpkqpj7skhel7uq	79	3	updated	update	VBD
work_lfiiutwqordgpkqpj7skhel7uq	79	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	79	5	analysis	analysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	79	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	79	7	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	79	8	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	79	9	K∗0(→	K∗0(→	.
work_lfiiutwqordgpkqpj7skhel7uq	79	10	K+π−)µ+µ−	k+π−)µ+µ−	$
work_lfiiutwqordgpkqpj7skhel7uq	79	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	79	12	B+	b+	NN
work_lfiiutwqordgpkqpj7skhel7uq	79	13	→	→	IN
work_lfiiutwqordgpkqpj7skhel7uq	79	14	K+µ+µ−	K+µ+µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	79	15	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	79	16	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	79	17	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	79	18	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	79	19	φ(→	φ(→	CD
work_lfiiutwqordgpkqpj7skhel7uq	79	20	K+K−)µ+µ−	k+k−)µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	79	21	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	79	22	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	79	23	4.4	4.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	79	24	fb−1of	fb−1of	CD
work_lfiiutwqordgpkqpj7skhel7uq	79	25	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	79	26	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	79	27	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	79	28	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	79	29	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	80	1	These	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	80	2	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	80	3	suppressed	suppress	VBN
work_lfiiutwqordgpkqpj7skhel7uq	80	4	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	80	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	80	6	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	80	7	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	80	8	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	80	9	≈	≈	NNP
work_lfiiutwqordgpkqpj7skhel7uq	80	10	10−6	10−6	CD
work_lfiiutwqordgpkqpj7skhel7uq	80	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	80	12	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	80	13	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	80	14	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	80	15	dominated	dominate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	80	16	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	80	17	penguin	penguin	NN
work_lfiiutwqordgpkqpj7skhel7uq	80	18	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	80	19	box	box	NN
work_lfiiutwqordgpkqpj7skhel7uq	80	20	Figure	Figure	NNP
work_lfiiutwqordgpkqpj7skhel7uq	80	21	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	80	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	81	1	Distribution	distribution	NN
work_lfiiutwqordgpkqpj7skhel7uq	81	2	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	81	3	µ+µ−	µ+µ−	NN
work_lfiiutwqordgpkqpj7skhel7uq	81	4	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	81	5	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	81	6	three	three	CD
work_lfiiutwqordgpkqpj7skhel7uq	81	7	independent	independent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	81	8	ranges	range	NNS
work_lfiiutwqordgpkqpj7skhel7uq	81	9	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	81	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	81	11	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	81	12	classifier	classifier	NN
work_lfiiutwqordgpkqpj7skhel7uq	81	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	82	1	b	b	LS
work_lfiiutwqordgpkqpj7skhel7uq	82	2	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	82	3	s	s	NN
work_lfiiutwqordgpkqpj7skhel7uq	82	4	transitions	transition	NNS
work_lfiiutwqordgpkqpj7skhel7uq	82	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	83	1	Despite	despite	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	83	3	presence	presence	NN
work_lfiiutwqordgpkqpj7skhel7uq	83	4	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	5	final-	final-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	83	6	state	state	NNP
work_lfiiutwqordgpkqpj7skhel7uq	83	7	hadrons	hadrons	NNP
work_lfiiutwqordgpkqpj7skhel7uq	83	8	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	83	9	accurate	accurate	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	10	predictions	prediction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	11	greatly	greatly	RB
work_lfiiutwqordgpkqpj7skhel7uq	83	12	sensi-	sensi-	VBP
work_lfiiutwqordgpkqpj7skhel7uq	83	13	tive	tive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	14	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	15	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	16	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	17	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	18	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	19	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	83	20	possible	possible	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	21	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	22	rel-	rel-	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	23	ative	ative	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	24	quantities	quantity	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	25	based	base	VBN
work_lfiiutwqordgpkqpj7skhel7uq	83	26	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	27	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	28	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	83	29	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	30	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	83	31	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	83	32	state	state	NN
work_lfiiutwqordgpkqpj7skhel7uq	83	33	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	83	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	84	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	84	2	B+	b+	NN
work_lfiiutwqordgpkqpj7skhel7uq	84	3	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	84	4	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	84	5	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	84	6	have	have	VBP
work_lfiiutwqordgpkqpj7skhel7uq	84	7	been	be	VBN
work_lfiiutwqordgpkqpj7skhel7uq	84	8	previously	previously	RB
work_lfiiutwqordgpkqpj7skhel7uq	84	9	studied	study	VBN
work_lfiiutwqordgpkqpj7skhel7uq	84	10	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	84	11	while	while	IN
work_lfiiutwqordgpkqpj7skhel7uq	84	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	84	13	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	84	14	channel	channel	NNP
work_lfiiutwqordgpkqpj7skhel7uq	84	15	has	have	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	84	16	not	not	RB
work_lfiiutwqordgpkqpj7skhel7uq	84	17	been	be	VBN
work_lfiiutwqordgpkqpj7skhel7uq	84	18	observed	observe	VBN
work_lfiiutwqordgpkqpj7skhel7uq	84	19	yet	yet	RB
work_lfiiutwqordgpkqpj7skhel7uq	84	20	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	85	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	85	2	use	use	VBP
work_lfiiutwqordgpkqpj7skhel7uq	85	3	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	85	4	large	large	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	5	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	85	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	85	7	high	high	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	8	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	85	9	purity	purity	NN
work_lfiiutwqordgpkqpj7skhel7uq	85	10	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	11	candidates	candidate	NNS
work_lfiiutwqordgpkqpj7skhel7uq	85	12	combined	combine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	85	13	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	85	14	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	85	15	common	common	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	16	vertex	vertex	NN
work_lfiiutwqordgpkqpj7skhel7uq	85	17	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	85	18	one	one	CD
work_lfiiutwqordgpkqpj7skhel7uq	85	19	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	85	20	two	two	CD
work_lfiiutwqordgpkqpj7skhel7uq	85	21	charged	charge	VBN
work_lfiiutwqordgpkqpj7skhel7uq	85	22	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	85	23	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	85	24	whose	whose	WP$
work_lfiiutwqordgpkqpj7skhel7uq	85	25	masses	masse	NNS
work_lfiiutwqordgpkqpj7skhel7uq	85	26	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	85	27	assigned	assign	VBN
work_lfiiutwqordgpkqpj7skhel7uq	85	28	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	85	29	appropriate	appropriate	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	30	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	85	31	each	each	DT
work_lfiiutwqordgpkqpj7skhel7uq	85	32	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	85	33	state	state	NN
work_lfiiutwqordgpkqpj7skhel7uq	85	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	86	1	In	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	86	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	3	B0	B0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	86	4	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	86	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	7	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	8	hypothe-	hypothe-	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	9	sis	sis	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	10	yielding	yield	VBG
work_lfiiutwqordgpkqpj7skhel7uq	86	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	12	Kπ	Kπ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	86	13	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	14	closer	close	RBR
work_lfiiutwqordgpkqpj7skhel7uq	86	15	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	86	16	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	17	known	know	VBN
work_lfiiutwqordgpkqpj7skhel7uq	86	18	K∗0	K∗0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	86	19	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	20	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	86	21	chosen	choose	VBN
work_lfiiutwqordgpkqpj7skhel7uq	86	22	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	86	23	resulting	result	VBG
work_lfiiutwqordgpkqpj7skhel7uq	86	24	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	86	25	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	26	proper	proper	JJ
work_lfiiutwqordgpkqpj7skhel7uq	86	27	assignment	assignment	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	28	about	about	RB
work_lfiiutwqordgpkqpj7skhel7uq	86	29	92	92	CD
work_lfiiutwqordgpkqpj7skhel7uq	86	30	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	86	31	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	86	32	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	86	33	times	time	NNS
work_lfiiutwqordgpkqpj7skhel7uq	86	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	87	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	87	2	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	87	3	that	that	WDT
work_lfiiutwqordgpkqpj7skhel7uq	87	4	uses	use	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	87	5	informa-	informa-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	87	6	tion	tion	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	7	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	87	8	kinematics	kinematic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	87	9	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	87	10	particle	particle	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	11	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	87	12	identification	identification	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	13	greatly	greatly	RB
work_lfiiutwqordgpkqpj7skhel7uq	87	14	improves	improve	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	87	15	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	16	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	87	17	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	87	18	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	87	19	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	20	discrimi-	discrimi-	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	21	nation	nation	NN
work_lfiiutwqordgpkqpj7skhel7uq	87	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	88	1	It	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	88	2	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	88	3	trained	train	VBN
work_lfiiutwqordgpkqpj7skhel7uq	88	4	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	88	5	simulated	simulated	JJ
work_lfiiutwqordgpkqpj7skhel7uq	88	6	signals	signal	NNS
work_lfiiutwqordgpkqpj7skhel7uq	88	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	88	8	mass	mass	JJ
work_lfiiutwqordgpkqpj7skhel7uq	88	9	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	88	10	sideband	sideband	NN
work_lfiiutwqordgpkqpj7skhel7uq	88	11	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	88	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	89	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	89	2	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	89	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	89	4	tuned	tune	VBN
work_lfiiutwqordgpkqpj7skhel7uq	89	5	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	89	6	reproduce	reproduce	VB
work_lfiiutwqordgpkqpj7skhel7uq	89	7	accurately	accurately	RB
work_lfiiutwqordgpkqpj7skhel7uq	89	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	89	9	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	89	10	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	89	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	89	12	corre-	corre-	NN
work_lfiiutwqordgpkqpj7skhel7uq	89	13	sponding	sponde	VBG
work_lfiiutwqordgpkqpj7skhel7uq	89	14	resonant	resonant	JJ
work_lfiiutwqordgpkqpj7skhel7uq	89	15	channels	channel	NNS
work_lfiiutwqordgpkqpj7skhel7uq	89	16	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	89	17	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	89	18	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	89	19	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	89	20	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	89	21	ψh	ψh	IN
work_lfiiutwqordgpkqpj7skhel7uq	89	22	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	89	23	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	90	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	90	2	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	90	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	90	4	optimized	optimize	VBN
work_lfiiutwqordgpkqpj7skhel7uq	90	5	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	90	6	maximum	maximum	JJ
work_lfiiutwqordgpkqpj7skhel7uq	90	7	expected	expect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	90	8	statisti-	statisti-	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	9	cal	cal	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	10	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	11	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	90	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	90	13	branching	branching	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	14	ratio	ratio	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	15	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	90	16	asym-	asym-	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	17	metry	metry	NN
work_lfiiutwqordgpkqpj7skhel7uq	90	18	measurements	measurement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	90	19	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	91	1	Prominent	prominent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	91	2	signals	signal	NNS
work_lfiiutwqordgpkqpj7skhel7uq	91	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	91	4	120	120	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	5	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	6	16	16	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	7	B+	b+	NN
work_lfiiutwqordgpkqpj7skhel7uq	91	8	→	→	IN
work_lfiiutwqordgpkqpj7skhel7uq	91	9	K+µ+µ−	K+µ+µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	91	10	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	91	11	101	101	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	12	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	91	13	12	12	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	14	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	91	15	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	91	16	K∗0µ+µ−	k∗0µ+µ−	CD
work_lfiiutwqordgpkqpj7skhel7uq	91	17	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	91	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	91	19	fig	fig	NN
work_lfiiutwqordgpkqpj7skhel7uq	91	20	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	92	1	2	2	LS
work_lfiiutwqordgpkqpj7skhel7uq	92	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	92	3	left	leave	VBN
work_lfiiutwqordgpkqpj7skhel7uq	92	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	92	5	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	92	6	observed	observe	VBN
work_lfiiutwqordgpkqpj7skhel7uq	92	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	93	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	93	2	absolute	absolute	JJ
work_lfiiutwqordgpkqpj7skhel7uq	93	3	branching	branching	NN
work_lfiiutwqordgpkqpj7skhel7uq	93	4	fractions	fraction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	93	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	93	6	measured	measure	VBN
work_lfiiutwqordgpkqpj7skhel7uq	93	7	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	93	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	93	9	resonant	resonant	JJ
work_lfiiutwqordgpkqpj7skhel7uq	93	10	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	93	11	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	93	12	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	93	13	refer-	refer-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	93	14	ence	ence	NN
work_lfiiutwqordgpkqpj7skhel7uq	93	15	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	93	16	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	93	17	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	93	18	0.38	0.38	CD
work_lfiiutwqordgpkqpj7skhel7uq	93	19	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	93	20	0.05	0.05	CD
work_lfiiutwqordgpkqpj7skhel7uq	93	21	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	93	22	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	93	23	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	93	24	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	94	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	94	2	0.03	0.03	CD
work_lfiiutwqordgpkqpj7skhel7uq	94	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	94	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	94	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	94	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	94	7	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	95	1	×	×	UH
work_lfiiutwqordgpkqpj7skhel7uq	95	2	10−6	10−6	CD
work_lfiiutwqordgpkqpj7skhel7uq	95	3	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	95	4	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	95	5	1.06	1.06	CD
work_lfiiutwqordgpkqpj7skhel7uq	95	6	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	95	7	0.14	0.14	CD
work_lfiiutwqordgpkqpj7skhel7uq	95	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	95	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	95	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	95	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	96	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	96	2	0.09	0.09	CD
work_lfiiutwqordgpkqpj7skhel7uq	96	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	96	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	96	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	96	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	96	7	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	1	×	×	UH
work_lfiiutwqordgpkqpj7skhel7uq	97	2	10−6	10−6	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	97	4	re-	re-	RB
work_lfiiutwqordgpkqpj7skhel7uq	97	5	spectively	spectively	RB
work_lfiiutwqordgpkqpj7skhel7uq	97	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	97	7	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	97	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	97	9	competitive	competitive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	97	10	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	97	11	pre-	pre-	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	12	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	14	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	15	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	16	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	17	GeV	GeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	18	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	19	c	c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	20	*	*	NFP
work_lfiiutwqordgpkqpj7skhel7uq	97	21	KµµM	KµµM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	22	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	23	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	24	5.1	5.1	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	25	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	26	5.3	5.3	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	27	5.4	5.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	28	5.5	5.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	29	5.6	5.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	30	5.7	5.7	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	31	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	32	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	33	E	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	34	v	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	35	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	36	n	n	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	37	ts	ts	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	38	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	39	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	40	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	41	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	42	M	m	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	43	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	44	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	45	/c	/c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	46	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	47	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	48	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	49	30	30	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	50	40	40	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	51	50	50	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	52	60	60	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	53	-1CDF	-1cdf	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	54	Run	run	VB
work_lfiiutwqordgpkqpj7skhel7uq	97	55	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	56	Preliminary	preliminary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	97	57	L=4.4fb	l=4.4fb	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	58	-µ+µ*0	-µ+µ*0	:
work_lfiiutwqordgpkqpj7skhel7uq	97	59	K→0B	K→0B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	60	12	12	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	61	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	62	102	102	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	63	expected)±Yield:101	expected)±yield:101	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	64	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	65	3	3	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	66	MeV	mev	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	67	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	68	c±Mass:5284	c±Mass:5284	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	69	Data	Data	NNPS
work_lfiiutwqordgpkqpj7skhel7uq	97	70	Total	Total	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	71	Fit	Fit	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	72	Signal	Signal	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	73	Background	Background	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	74	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	75	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	76	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	77	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	78	GeV	GeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	79	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	80	cφµµM	cφµµM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	81	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	82	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	83	5.1	5.1	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	84	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	85	5.3	5.3	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	86	5.4	5.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	87	5.5	5.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	88	5.6	5.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	89	5.7	5.7	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	90	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	91	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	92	E	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	93	v	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	94	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	95	n	n	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	96	ts	ts	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	97	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	98	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	99	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	100	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	101	M	m	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	102	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	103	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	104	/c	/c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	105	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	106	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	107	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	108	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	109	8	8	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	110	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	111	12	12	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	112	14	14	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	113	16	16	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	114	18	18	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	115	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	116	22	22	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	117	-1CDF	-1CDF	.
work_lfiiutwqordgpkqpj7skhel7uq	97	118	Run	run	VB
work_lfiiutwqordgpkqpj7skhel7uq	97	119	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	120	Preliminary	Preliminary	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	121	L=4.4fb	l=4.4fb	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	122	-µ+µφ	-µ+µφ	:
work_lfiiutwqordgpkqpj7skhel7uq	97	123	→0sB	→0sB	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	124	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	125	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	97	126	31	31	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	127	expected)±Yield:27	expected)±Yield:27	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	128	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	129	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	130	MeV	mev	NN
work_lfiiutwqordgpkqpj7skhel7uq	97	131	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	97	132	c±Mass:5365	c±Mass:5365	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	133	Data	Data	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	134	Total	Total	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	135	Fit	Fit	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	136	Signal	Signal	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	137	Background	Background	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	138	Figure	Figure	NNP
work_lfiiutwqordgpkqpj7skhel7uq	97	139	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	97	140	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	98	1	Distribution	distribution	NN
work_lfiiutwqordgpkqpj7skhel7uq	98	2	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	98	3	K+π−µ+µ−	K+π−µ+µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	98	4	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	98	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	98	6	left	left	RB
work_lfiiutwqordgpkqpj7skhel7uq	98	7	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	98	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	98	9	K+K−µ+µ−	K+K−µ+µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	98	10	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	98	11	right	right	RB
work_lfiiutwqordgpkqpj7skhel7uq	98	12	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	98	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	99	1	vious	vious	JJ
work_lfiiutwqordgpkqpj7skhel7uq	99	2	determinations	determination	NNS
work_lfiiutwqordgpkqpj7skhel7uq	99	3	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	99	4	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	99	5	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	99	6	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	100	1	In	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	2	addition	addition	NN
work_lfiiutwqordgpkqpj7skhel7uq	100	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	100	4	27	27	CD
work_lfiiutwqordgpkqpj7skhel7uq	100	5	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	100	6	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	100	7	B0s	b0	NNS
work_lfiiutwqordgpkqpj7skhel7uq	100	8	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	100	9	φµ+µ−	φµ+µ−	CD
work_lfiiutwqordgpkqpj7skhel7uq	100	10	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	100	11	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	100	12	reconstructed	reconstruct	VBN
work_lfiiutwqordgpkqpj7skhel7uq	100	13	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	100	14	corre-	corre-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	100	15	sponding	sponde	VBG
work_lfiiutwqordgpkqpj7skhel7uq	100	16	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	100	18	first	first	JJ
work_lfiiutwqordgpkqpj7skhel7uq	100	19	observation	observation	NN
work_lfiiutwqordgpkqpj7skhel7uq	100	20	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	21	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	100	22	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	100	23	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	100	24	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	25	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	100	26	significance	significance	NN
work_lfiiutwqordgpkqpj7skhel7uq	100	27	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	28	excess	excess	NN
work_lfiiutwqordgpkqpj7skhel7uq	100	29	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	100	30	6σ	6σ	CD
work_lfiiutwqordgpkqpj7skhel7uq	100	31	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	101	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	101	2	branch-	branch-	NN
work_lfiiutwqordgpkqpj7skhel7uq	101	3	ing	ing	NN
work_lfiiutwqordgpkqpj7skhel7uq	101	4	ratio	ratio	NN
work_lfiiutwqordgpkqpj7skhel7uq	101	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	101	6	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	101	7	1.44±0.33	1.44±0.33	NNP
work_lfiiutwqordgpkqpj7skhel7uq	101	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	101	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	101	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	102	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	102	2	±0.46	±0.46	NNP
work_lfiiutwqordgpkqpj7skhel7uq	102	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	102	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	102	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	103	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	103	2	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	103	3	×10−5	×10−5	NNP
work_lfiiutwqordgpkqpj7skhel7uq	103	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	103	5	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	103	6	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	103	7	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	103	8	theory	theory	JJ
work_lfiiutwqordgpkqpj7skhel7uq	103	9	predictions	prediction	NNS
work_lfiiutwqordgpkqpj7skhel7uq	103	10	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	103	11	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	103	12	corre-	corre-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	103	13	sponds	spond	NNS
work_lfiiutwqordgpkqpj7skhel7uq	103	14	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	103	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	103	16	rarest	rare	JJS
work_lfiiutwqordgpkqpj7skhel7uq	103	17	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	103	18	decay	decay	NNP
work_lfiiutwqordgpkqpj7skhel7uq	103	19	ever	ever	RB
work_lfiiutwqordgpkqpj7skhel7uq	103	20	observed	observe	VBN
work_lfiiutwqordgpkqpj7skhel7uq	103	21	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	103	22	date	date	NN
work_lfiiutwqordgpkqpj7skhel7uq	103	23	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	104	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	104	2	use	use	VBP
work_lfiiutwqordgpkqpj7skhel7uq	104	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	104	4	B+	b+	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	5	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	104	6	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	7	signals	signal	NNS
work_lfiiutwqordgpkqpj7skhel7uq	104	8	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	104	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	104	10	first	first	JJ
work_lfiiutwqordgpkqpj7skhel7uq	104	11	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	12	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	104	13	hadron	hadron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	104	14	collisions	collision	NNS
work_lfiiutwqordgpkqpj7skhel7uq	104	15	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	104	16	branching	branch	VBG
work_lfiiutwqordgpkqpj7skhel7uq	104	17	ra-	ra-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	104	18	tios	tio	NNS
work_lfiiutwqordgpkqpj7skhel7uq	104	19	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	104	20	muon	muon	VBP
work_lfiiutwqordgpkqpj7skhel7uq	104	21	forward	forward	RB
work_lfiiutwqordgpkqpj7skhel7uq	104	22	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	104	23	backward	backward	RB
work_lfiiutwqordgpkqpj7skhel7uq	104	24	asymmetry	asymmetry	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	25	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	104	26	AFB	AFB	NNP
work_lfiiutwqordgpkqpj7skhel7uq	104	27	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	104	28	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	104	29	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	104	30	K∗0	k∗0	JJ
work_lfiiutwqordgpkqpj7skhel7uq	104	31	longitudinal	longitudinal	JJ
work_lfiiutwqordgpkqpj7skhel7uq	104	32	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	33	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	104	34	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	104	35	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	104	36	function	function	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	37	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	104	38	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	104	39	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	104	40	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	104	41	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	105	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	2	asymmetry	asymmetry	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	105	4	greatly	greatly	RB
work_lfiiutwqordgpkqpj7skhel7uq	105	5	sensitive	sensitive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	6	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	7	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	8	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	9	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	10	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	105	11	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	105	12	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	105	13	determined	determine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	105	14	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	15	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	16	fit	fit	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	17	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	18	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	19	cos(θµ	cos(θµ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	105	20	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	105	21	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	105	22	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	105	23	θµ	θµ	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	24	being	be	VBG
work_lfiiutwqordgpkqpj7skhel7uq	105	25	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	26	helicity	helicity	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	27	angle	angle	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	28	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	29	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	30	µ+	µ+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	105	31	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	105	32	µ−	µ−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	105	33	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	105	34	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	105	35	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	36	opposite	opposite	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	37	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	38	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	39	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	40	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	105	41	B̄	B̄	NNP
work_lfiiutwqordgpkqpj7skhel7uq	105	42	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	105	43	direction	direction	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	44	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	105	45	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	105	46	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	105	47	rest	rest	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	48	frame	frame	NN
work_lfiiutwqordgpkqpj7skhel7uq	105	49	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	106	1	Angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	106	2	acceptances	acceptance	NNS
work_lfiiutwqordgpkqpj7skhel7uq	106	3	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	106	4	determined	determine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	106	5	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	106	6	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	106	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	107	1	Figure	figure	NN
work_lfiiutwqordgpkqpj7skhel7uq	107	2	3	3	CD
work_lfiiutwqordgpkqpj7skhel7uq	107	3	shows	show	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	107	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	107	5	asymme-	asymme-	NN
work_lfiiutwqordgpkqpj7skhel7uq	107	6	try	try	VB
work_lfiiutwqordgpkqpj7skhel7uq	107	7	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	107	8	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	107	9	function	function	NN
work_lfiiutwqordgpkqpj7skhel7uq	107	10	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	107	11	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	107	12	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	107	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	108	1	Integrated	integrate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	108	2	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	108	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	108	4	1–6	1–6	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	5	GeV2	GeV2	AFX
work_lfiiutwqordgpkqpj7skhel7uq	108	6	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	108	7	c4	c4	NNP
work_lfiiutwqordgpkqpj7skhel7uq	108	8	range	range	NN
work_lfiiutwqordgpkqpj7skhel7uq	108	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	108	10	where	where	WRB
work_lfiiutwqordgpkqpj7skhel7uq	108	11	theory	theory	NN
work_lfiiutwqordgpkqpj7skhel7uq	108	12	predic-	predic-	NN
work_lfiiutwqordgpkqpj7skhel7uq	108	13	tions	tion	NNS
work_lfiiutwqordgpkqpj7skhel7uq	108	14	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	108	15	most	most	RBS
work_lfiiutwqordgpkqpj7skhel7uq	108	16	reliable	reliable	JJ
work_lfiiutwqordgpkqpj7skhel7uq	108	17	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	108	18	it	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	108	19	equals	equal	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	108	20	AFB	AFB	NNP
work_lfiiutwqordgpkqpj7skhel7uq	108	21	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	108	22	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	23	<	<	XX
work_lfiiutwqordgpkqpj7skhel7uq	108	24	q	q	NNP
work_lfiiutwqordgpkqpj7skhel7uq	108	25	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	26	<	<	NNP
work_lfiiutwqordgpkqpj7skhel7uq	108	27	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	28	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	108	29	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	108	30	0.43	0.43	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	31	+	+	SYM
work_lfiiutwqordgpkqpj7skhel7uq	108	32	0.36−0.37	0.36−0.37	CD
work_lfiiutwqordgpkqpj7skhel7uq	108	33	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	108	34	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	108	35	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	108	36	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	109	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	109	2	0.06	0.06	CD
work_lfiiutwqordgpkqpj7skhel7uq	109	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	109	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	109	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	110	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	110	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	110	3	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	110	4	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	110	5	Belle	Belle	NNP
work_lfiiutwqordgpkqpj7skhel7uq	110	6	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	110	7	Babar	Babar	NNP
work_lfiiutwqordgpkqpj7skhel7uq	110	8	determinations	determination	NNS
work_lfiiutwqordgpkqpj7skhel7uq	110	9	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	110	10	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	110	11	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	110	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	111	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	111	2	plans	plan	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	111	3	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	111	4	achieve	achieve	VB
work_lfiiutwqordgpkqpj7skhel7uq	111	5	world	world	NN
work_lfiiutwqordgpkqpj7skhel7uq	111	6	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	111	7	leading	lead	VBG
work_lfiiutwqordgpkqpj7skhel7uq	111	8	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	9	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	111	10	summer	summer	NN
work_lfiiutwqordgpkqpj7skhel7uq	111	11	2011	2011	CD
work_lfiiutwqordgpkqpj7skhel7uq	111	12	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	111	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	111	14	anticipated	anticipated	JJ
work_lfiiutwqordgpkqpj7skhel7uq	111	15	2–3	2–3	CD
work_lfiiutwqordgpkqpj7skhel7uq	111	16	factors	factor	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	17	increase	increase	VBP
work_lfiiutwqordgpkqpj7skhel7uq	111	18	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	111	19	statistics	statistic	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	20	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	111	21	due	due	IN
work_lfiiutwqordgpkqpj7skhel7uq	111	22	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	111	23	additional	additional	JJ
work_lfiiutwqordgpkqpj7skhel7uq	111	24	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	25	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	111	26	triggers	trigger	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	27	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	111	28	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	111	29	reconstructed	reconstruct	VBN
work_lfiiutwqordgpkqpj7skhel7uq	111	30	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	111	31	states	state	NNS
work_lfiiutwqordgpkqpj7skhel7uq	111	32	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	112	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	112	2	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	3	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	112	4	c2	c2	NN
work_lfiiutwqordgpkqpj7skhel7uq	112	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	112	6	GeV2q	GeV2q	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	7	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	8	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	9	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	10	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	11	8	8	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	12	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	13	12	12	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	14	14	14	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	15	16	16	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	16	18	18	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	17	F	f	NN
work_lfiiutwqordgpkqpj7skhel7uq	112	18	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	19	A	A	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	20	-0.5	-0.5	,
work_lfiiutwqordgpkqpj7skhel7uq	112	21	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	22	0.5	0.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	23	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	24	1.5	1.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	25	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	26	Data	Data	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	27	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	28	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	29	7=-C7C	7=-C7C	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	30	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	112	31	-µ+µ*0	-µ+µ*0	NFP
work_lfiiutwqordgpkqpj7skhel7uq	112	32	K→	k→	ADD
work_lfiiutwqordgpkqpj7skhel7uq	112	33	0(BFBA	0(bfba	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	34	-1CDF	-1CDF	.
work_lfiiutwqordgpkqpj7skhel7uq	112	35	Run	run	VB
work_lfiiutwqordgpkqpj7skhel7uq	112	36	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	112	37	Preliminary	preliminary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	112	38	L=4.4fb	l=4.4fb	JJ
work_lfiiutwqordgpkqpj7skhel7uq	112	39	Figure	figure	NN
work_lfiiutwqordgpkqpj7skhel7uq	112	40	3	3	CD
work_lfiiutwqordgpkqpj7skhel7uq	112	41	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	113	1	Forward	forward	RB
work_lfiiutwqordgpkqpj7skhel7uq	113	2	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	113	3	backward	backward	RB
work_lfiiutwqordgpkqpj7skhel7uq	113	4	asymmetry	asymmetry	NN
work_lfiiutwqordgpkqpj7skhel7uq	113	5	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	113	6	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	113	7	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	113	8	K∗0µ+µ−	k∗0µ+µ−	CD
work_lfiiutwqordgpkqpj7skhel7uq	113	9	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	113	10	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	113	11	function	function	NN
work_lfiiutwqordgpkqpj7skhel7uq	113	12	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	113	13	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	113	14	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	113	15	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	114	1	4	4	LS
work_lfiiutwqordgpkqpj7skhel7uq	114	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	115	1	Measurement	Measurement	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	2	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	115	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	115	4	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	5	mixing	mix	VBG
work_lfiiutwqordgpkqpj7skhel7uq	115	6	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	115	7	Non	Non	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	8	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	115	9	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	10	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	115	11	have	have	VBP
work_lfiiutwqordgpkqpj7skhel7uq	115	12	not	not	RB
work_lfiiutwqordgpkqpj7skhel7uq	115	13	yet	yet	RB
work_lfiiutwqordgpkqpj7skhel7uq	115	14	been	be	VBN
work_lfiiutwqordgpkqpj7skhel7uq	115	15	ex-	ex-	RB
work_lfiiutwqordgpkqpj7skhel7uq	115	16	cluded	clude	VBN
work_lfiiutwqordgpkqpj7skhel7uq	115	17	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	115	18	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	19	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	115	20	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	115	21	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	115	22	s	s	NN
work_lfiiutwqordgpkqpj7skhel7uq	115	23	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	115	24	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	116	1	Their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	116	2	magnitude	magnitude	NN
work_lfiiutwqordgpkqpj7skhel7uq	116	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	116	4	constrained	constrain	VBN
work_lfiiutwqordgpkqpj7skhel7uq	116	5	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	116	6	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	116	7	small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	116	8	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	116	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	116	10	precise	precise	JJ
work_lfiiutwqordgpkqpj7skhel7uq	116	11	determi-	determi-	NN
work_lfiiutwqordgpkqpj7skhel7uq	116	12	nation	nation	NN
work_lfiiutwqordgpkqpj7skhel7uq	116	13	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	116	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	116	15	frequency	frequency	NN
work_lfiiutwqordgpkqpj7skhel7uq	116	16	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	116	17	7	7	CD
work_lfiiutwqordgpkqpj7skhel7uq	116	18	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	116	19	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	117	1	However	however	RB
work_lfiiutwqordgpkqpj7skhel7uq	117	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	117	3	knowledge	knowledge	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	4	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	117	5	only	only	RB
work_lfiiutwqordgpkqpj7skhel7uq	117	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	117	7	frequency	frequency	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	8	leaves	leave	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	117	9	possible	possible	JJ
work_lfiiutwqordgpkqpj7skhel7uq	117	10	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	117	11	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	117	12	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	117	13	con-	con-	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	14	tributions	tribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	117	15	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	117	16	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	117	17	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	117	18	CP	cp	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	19	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	117	20	violating	violate	VBG
work_lfiiutwqordgpkqpj7skhel7uq	117	21	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	117	22	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	23	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	24	un-	un-	RB
work_lfiiutwqordgpkqpj7skhel7uq	117	25	constrained	constrained	NN
work_lfiiutwqordgpkqpj7skhel7uq	117	26	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	118	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	118	2	time	time	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	3	evolution	evolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	4	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	118	5	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	6	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	118	7	tagged	tag	VBN
work_lfiiutwqordgpkqpj7skhel7uq	118	8	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	118	9	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	118	10	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	118	11	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	118	12	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	118	13	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	118	14	allow	allow	VB
work_lfiiutwqordgpkqpj7skhel7uq	118	15	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	118	16	determination	determination	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	17	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	118	18	this	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	118	19	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	20	largely	largely	RB
work_lfiiutwqordgpkqpj7skhel7uq	118	21	free	free	JJ
work_lfiiutwqordgpkqpj7skhel7uq	118	22	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	118	23	theory	theory	NN
work_lfiiutwqordgpkqpj7skhel7uq	118	24	uncertain-	uncertain-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	118	25	ties	tie	NNS
work_lfiiutwqordgpkqpj7skhel7uq	118	26	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	119	1	These	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	2	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	119	3	probe	probe	VBP
work_lfiiutwqordgpkqpj7skhel7uq	119	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	5	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	6	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	119	7	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	8	be-	be-	XX
work_lfiiutwqordgpkqpj7skhel7uq	119	9	tween	tween	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	11	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	12	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	119	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	14	b̄	b̄	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	15	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	119	16	c̄cs̄	c̄cs̄	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	17	quark	quark	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	18	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	119	19	level	level	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	20	transition	transition	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	21	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	119	22	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	23	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	24	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	119	25	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	26	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	27	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	119	28	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	29	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	30	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	31	+	+	CC
work_lfiiutwqordgpkqpj7skhel7uq	119	32	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	33	NP	NP	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	34	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	35	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	119	36	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	119	37	equals	equal	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	119	38	βSMs	βSMs	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	39	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	119	40	arg(−VtsV	arg(−vtsv	FW
work_lfiiutwqordgpkqpj7skhel7uq	119	41	∗tb	∗tb	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	42	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	119	43	VcsV	vcsv	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	44	∗cb	∗cb	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	45	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	119	46	≈	≈	NNP
work_lfiiutwqordgpkqpj7skhel7uq	119	47	0.02	0.02	CD
work_lfiiutwqordgpkqpj7skhel7uq	119	48	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	119	49	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	50	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	51	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	119	52	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	119	53	extremely	extremely	RB
work_lfiiutwqordgpkqpj7skhel7uq	119	54	sensitive	sensitive	JJ
work_lfiiutwqordgpkqpj7skhel7uq	119	55	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	119	56	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	119	57	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	119	58	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	119	59	physics	physics	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	60	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	119	61	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	119	62	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	119	63	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	120	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	120	2	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	3	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	4	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	5	contribution	contribution	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	6	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	120	7	βNPs	βnps	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	8	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	120	9	would	would	MD
work_lfiiutwqordgpkqpj7skhel7uq	120	10	also	also	RB
work_lfiiutwqordgpkqpj7skhel7uq	120	11	enter	enter	VB
work_lfiiutwqordgpkqpj7skhel7uq	120	12	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	13	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	14	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	120	15	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	16	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	17	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	120	18	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	19	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	20	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	21	−	−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	22	2βNPs	2βnps	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	23	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	120	24	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	120	25	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	120	26	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	120	27	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	28	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	29	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	120	30	mixing	mix	VBG
work_lfiiutwqordgpkqpj7skhel7uq	120	31	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	120	32	decay	decay	VB
work_lfiiutwqordgpkqpj7skhel7uq	120	33	into	into	IN
work_lfiiutwqordgpkqpj7skhel7uq	120	34	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	35	states	state	NNS
work_lfiiutwqordgpkqpj7skhel7uq	120	36	common	common	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	37	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	120	38	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	39	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	120	40	B	B	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	41	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	120	42	s	s	NNPS
work_lfiiutwqordgpkqpj7skhel7uq	120	43	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	120	44	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	120	45	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	120	46	also	also	RB
work_lfiiutwqordgpkqpj7skhel7uq	120	47	tiny	tiny	JJ
work_lfiiutwqordgpkqpj7skhel7uq	120	48	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	120	49	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	120	50	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	51	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	120	52	φSMs	φsms	NN
work_lfiiutwqordgpkqpj7skhel7uq	120	53	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	120	54	arg(−M12	arg(−m12	XX
work_lfiiutwqordgpkqpj7skhel7uq	120	55	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	120	56	Γ12	Γ12	NNP
work_lfiiutwqordgpkqpj7skhel7uq	120	57	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	120	58	≈	≈	IN
work_lfiiutwqordgpkqpj7skhel7uq	120	59	0.004	0.004	CD
work_lfiiutwqordgpkqpj7skhel7uq	120	60	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	121	1	Because	because	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	121	3	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	4	values	value	NNS
work_lfiiutwqordgpkqpj7skhel7uq	121	5	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	6	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	7	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	121	9	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	10	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	11	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	121	12	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	13	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	14	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	121	15	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	16	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	17	can	can	MD
work_lfiiutwqordgpkqpj7skhel7uq	121	18	not	not	RB
work_lfiiutwqordgpkqpj7skhel7uq	121	19	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	121	20	resolved	resolve	VBN
work_lfiiutwqordgpkqpj7skhel7uq	121	21	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	22	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	121	23	precision	precision	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	24	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	25	cur-	cur-	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	26	rent	rent	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	27	experiments	experiment	NNS
work_lfiiutwqordgpkqpj7skhel7uq	121	28	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	121	29	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	121	30	following	follow	VBG
work_lfiiutwqordgpkqpj7skhel7uq	121	31	approximation	approximation	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	32	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	121	33	used	use	VBN
work_lfiiutwqordgpkqpj7skhel7uq	121	34	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	121	35	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	36	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	37	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	121	38	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	39	s	s	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	40	≈	≈	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	41	−2βNPs	−2βNPs	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	42	≈	≈	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	43	−2β	−2β	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	44	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	45	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	121	46	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	47	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	121	48	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	121	49	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	121	50	holds	hold	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	121	51	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	52	case	case	NN
work_lfiiutwqordgpkqpj7skhel7uq	121	53	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	121	54	sizable	sizable	JJ
work_lfiiutwqordgpkqpj7skhel7uq	121	55	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	121	56	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	121	57	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	121	58	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	121	59	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	122	1	Note	note	VB
work_lfiiutwqordgpkqpj7skhel7uq	122	2	that	that	IN
work_lfiiutwqordgpkqpj7skhel7uq	122	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	122	4	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	122	5	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	6	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	7	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	8	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	9	s	s	POS
work_lfiiutwqordgpkqpj7skhel7uq	122	10	also	also	RB
work_lfiiutwqordgpkqpj7skhel7uq	122	11	modifies	modify	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	122	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	122	13	decay-	decay-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	122	14	width	width	JJ
work_lfiiutwqordgpkqpj7skhel7uq	122	15	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	122	16	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	122	17	light	light	JJ
work_lfiiutwqordgpkqpj7skhel7uq	122	18	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	122	19	heavy	heavy	JJ
work_lfiiutwqordgpkqpj7skhel7uq	122	20	states	state	NNS
work_lfiiutwqordgpkqpj7skhel7uq	122	21	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	122	22	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	23	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	24	ΓL	ΓL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	25	−	−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	26	ΓH	ΓH	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	27	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	28	2|Γ12|	2|γ12|	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	29	cos(φJ	cos(φJ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	30	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	31	ψφs	ψφs	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	32	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	122	33	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	122	34	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	122	35	en-	en-	NN
work_lfiiutwqordgpkqpj7skhel7uq	122	36	ters	ter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	122	37	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	122	38	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	122	39	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	40	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	41	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	42	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	43	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	44	amplitude	amplitude	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	45	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	122	46	equals	equal	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	122	47	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	48	∆ΓSM	∆γsm	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	49	≈	≈	JJ
work_lfiiutwqordgpkqpj7skhel7uq	122	50	2|Γ12|	2|γ12|	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	51	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	122	52	0.086	0.086	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	53	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	54	0.025	0.025	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	55	ps−1	ps−1	NN
work_lfiiutwqordgpkqpj7skhel7uq	122	56	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	122	57	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	122	58	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	122	59	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	122	60	8	8	CD
work_lfiiutwqordgpkqpj7skhel7uq	122	61	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	122	62	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	123	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	123	2	updated	update	VBD
work_lfiiutwqordgpkqpj7skhel7uq	123	3	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	123	4	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	123	5	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	123	6	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	123	7	time-	time-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	8	evolution	evolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	123	9	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	123	10	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	123	11	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	123	12	tagged	tag	VBN
work_lfiiutwqordgpkqpj7skhel7uq	123	13	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	14	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	123	15	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	16	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	123	17	ψ(→	ψ(→	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	18	µ+µ−)φ(→	µ+µ−)φ(→	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	19	K+K−	K+K−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	123	20	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	123	21	decays	decay	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	123	22	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	123	23	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	123	24	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	123	25	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	123	26	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	123	27	fb−1	fb−1	NNS
work_lfiiutwqordgpkqpj7skhel7uq	123	28	collected	collect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	123	29	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	123	30	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	123	31	dimuon	dimuon	JJ
work_lfiiutwqordgpkqpj7skhel7uq	123	32	trigger	trigger	NN
work_lfiiutwqordgpkqpj7skhel7uq	123	33	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	123	34	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	123	35	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	123	36	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	124	1	Im-	im-	CD
work_lfiiutwqordgpkqpj7skhel7uq	124	2	provements	provement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	124	3	over	over	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	5	previous	previous	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	6	version	version	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	7	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	9	anal-	anal-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	10	ysis	ysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	11	include	include	VBP
work_lfiiutwqordgpkqpj7skhel7uq	124	12	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	13	a	a	LS
work_lfiiutwqordgpkqpj7skhel7uq	124	14	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	15	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	16	doubled	double	VBN
work_lfiiutwqordgpkqpj7skhel7uq	124	17	event	event	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	18	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	19	along	along	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	20	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	21	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	22	newly	newly	RB
work_lfiiutwqordgpkqpj7skhel7uq	124	23	optimized	optimize	VBN
work_lfiiutwqordgpkqpj7skhel7uq	124	24	selection	selection	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	25	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	26	b	b	LS
work_lfiiutwqordgpkqpj7skhel7uq	124	27	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	28	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	29	fully	fully	RB
work_lfiiutwqordgpkqpj7skhel7uq	124	30	data	data	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	31	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	124	32	driven	drive	VBN
work_lfiiutwqordgpkqpj7skhel7uq	124	33	recalibration	recalibration	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	34	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	35	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	124	36	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	37	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	124	38	tagging	tagging	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	39	al-	al-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	40	gorithms	gorithms	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	41	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	42	c	c	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	43	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	44	inclusion	inclusion	NN
work_lfiiutwqordgpkqpj7skhel7uq	124	45	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	46	possible	possible	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	47	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	48	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	49	φ	φ	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	50	scalar	scalar	JJ
work_lfiiutwqordgpkqpj7skhel7uq	124	51	K+K−	K+K−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	52	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	124	53	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	124	54	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	55	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	124	56	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	57	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	124	58	ψf0(980	ψf0(980	NNP
work_lfiiutwqordgpkqpj7skhel7uq	124	59	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	124	60	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	125	1	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	125	2	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	3	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	125	4	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	125	5	GeV	GeV	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	6	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	125	7	cφ	cφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	8	ψMass(J/	ψMass(J/	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	9	5.28	5.28	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	10	5.32	5.32	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	11	5.36	5.36	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	12	5.4	5.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	13	5.44	5.44	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	14	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	15	C	c	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	16	a	a	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	17	n	n	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	18	d	d	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	19	i	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	125	20	d	d	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	21	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	125	22	te	te	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	23	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	24	p	p	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	25	e	e	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	26	r	r	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	27	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	28	M	m	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	29	e	e	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	30	V	v	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	31	/c	/c	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	32	0	0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	33	100	100	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	34	200	200	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	35	300	300	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	36	400	400	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	37	500	500	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	38	600	600	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	39	700	700	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	40	800	800	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	41	900	900	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	42	-1CDF	-1CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	43	Run	Run	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	44	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	45	preliminary	preliminary	JJ
work_lfiiutwqordgpkqpj7skhel7uq	125	46	L	l	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	47	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	125	48	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	49	fb	fb	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	50	-1Mixing	-1Mixing	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	51	Frequency	Frequency	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	52	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	125	53	ps	ps	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	54	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	55	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	56	30	30	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	57	A	a	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	58	m	m	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	59	p	p	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	60	lit	lit	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	61	u	u	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	62	d	d	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	63	e	e	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	64	-1.5	-1.5	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	65	-1.0	-1.0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	66	-0.5	-0.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	67	0.0	0.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	68	0.5	0.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	69	1.0	1.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	70	1.5	1.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	71	2.0	2.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	72	Amplitude	Amplitude	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	73	A	A	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	74	-1Sensitivity	-1sensitivity	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	75	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	125	76	37.0	37.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	77	ps	ps	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	78	-1CDF	-1CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	79	Run	Run	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	80	2	2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	81	Preliminary	Preliminary	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	82	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	125	83	L	L	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	84	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	125	85	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	86	fb	fb	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	87	-1Mixing	-1Mixing	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	88	Frequency	Frequency	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	89	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	125	90	ps	ps	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	91	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	92	20	20	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	93	30	30	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	94	A	a	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	95	m	m	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	96	p	p	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	97	lit	lit	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	98	u	u	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	99	d	d	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	100	e	e	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	101	-1.5	-1.5	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	102	-1.0	-1.0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	125	103	-0.5	-0.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	104	0.0	0.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	105	0.5	0.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	106	1.0	1.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	107	1.5	1.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	108	2.0	2.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	109	Figure	figure	NN
work_lfiiutwqordgpkqpj7skhel7uq	125	110	4	4	CD
work_lfiiutwqordgpkqpj7skhel7uq	125	111	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	126	1	Distribution	distribution	NN
work_lfiiutwqordgpkqpj7skhel7uq	126	2	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	126	3	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	126	4	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	126	5	ψK+K−	ψK+K−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	126	6	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	126	7	after	after	IN
work_lfiiutwqordgpkqpj7skhel7uq	126	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	126	9	optimized	optimize	VBN
work_lfiiutwqordgpkqpj7skhel7uq	126	10	selection	selection	NN
work_lfiiutwqordgpkqpj7skhel7uq	126	11	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	127	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	127	2	kinematic	kinematic	JJ
work_lfiiutwqordgpkqpj7skhel7uq	127	3	fit	fit	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	4	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	127	5	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	127	6	common	common	JJ
work_lfiiutwqordgpkqpj7skhel7uq	127	7	space	space	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	8	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	127	9	point	point	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	10	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	127	11	ap-	ap-	RB
work_lfiiutwqordgpkqpj7skhel7uq	127	12	plied	ply	VBN
work_lfiiutwqordgpkqpj7skhel7uq	127	13	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	127	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	127	15	candidate	candidate	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	16	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	127	17	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	127	18	ψ	ψ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	127	19	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	127	20	two	two	CD
work_lfiiutwqordgpkqpj7skhel7uq	127	21	tracks	track	NNS
work_lfiiutwqordgpkqpj7skhel7uq	127	22	con-	con-	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	23	sistent	sistent	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	24	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	127	25	being	be	VBG
work_lfiiutwqordgpkqpj7skhel7uq	127	26	kaons	kaon	NNS
work_lfiiutwqordgpkqpj7skhel7uq	127	27	originated	originate	VBD
work_lfiiutwqordgpkqpj7skhel7uq	127	28	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	127	29	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	127	30	φ	φ	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	31	me-	me-	CD
work_lfiiutwqordgpkqpj7skhel7uq	127	32	son	son	NN
work_lfiiutwqordgpkqpj7skhel7uq	127	33	decay	decay	NNP
work_lfiiutwqordgpkqpj7skhel7uq	127	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	128	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	2	NN	NN	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	3	trained	train	VBN
work_lfiiutwqordgpkqpj7skhel7uq	128	4	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	5	simulated	simulate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	128	6	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	128	7	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	128	8	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	128	9	identify	identify	VB
work_lfiiutwqordgpkqpj7skhel7uq	128	10	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	128	12	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	128	13	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	14	mass	mass	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	15	sidebands	sideband	NNS
work_lfiiutwqordgpkqpj7skhel7uq	128	16	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	128	17	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	18	back-	back-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	19	ground	ground	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	20	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	128	21	exploits	exploit	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	128	22	kinematic	kinematic	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	23	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	128	24	PID	PID	NNP
work_lfiiutwqordgpkqpj7skhel7uq	128	25	information	information	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	26	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	27	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	28	unbiased	unbiased	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	29	optimization	optimization	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	30	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	31	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	32	selection	selection	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	33	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	128	34	we	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	128	35	minimize	minimize	VBP
work_lfiiutwqordgpkqpj7skhel7uq	128	36	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	37	average	average	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	38	expected	expect	VBD
work_lfiiutwqordgpkqpj7skhel7uq	128	39	statistical	statistical	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	40	uncer-	uncer-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	41	tainty	tainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	42	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	43	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	44	mixing	mixing	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	45	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	46	extracted	extract	VBN
work_lfiiutwqordgpkqpj7skhel7uq	128	47	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	48	en-	en-	XX
work_lfiiutwqordgpkqpj7skhel7uq	128	49	sembles	semble	NNS
work_lfiiutwqordgpkqpj7skhel7uq	128	50	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	51	statistical	statistical	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	52	trials	trial	NNS
work_lfiiutwqordgpkqpj7skhel7uq	128	53	generated	generate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	128	54	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	128	55	dif-	dif-	DT
work_lfiiutwqordgpkqpj7skhel7uq	128	56	ferent	ferent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	128	57	input	input	NN
work_lfiiutwqordgpkqpj7skhel7uq	128	58	values	value	NNS
work_lfiiutwqordgpkqpj7skhel7uq	128	59	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	129	1	Discriminating	discriminate	VBG
work_lfiiutwqordgpkqpj7skhel7uq	129	2	observables	observable	NNS
work_lfiiutwqordgpkqpj7skhel7uq	129	3	used	use	VBN
work_lfiiutwqordgpkqpj7skhel7uq	129	4	include	include	VBP
work_lfiiutwqordgpkqpj7skhel7uq	129	5	kaon	kaon	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	6	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	129	7	likelihood	likelihood	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	8	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	129	9	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	129	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	129	11	combina-	combina-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	129	12	tion	tion	NN
work_lfiiutwqordgpkqpj7skhel7uq	129	13	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	129	14	dE	dE	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	15	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	129	16	dx	dx	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	17	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	129	18	TOF	TOF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	19	information	information	NN
work_lfiiutwqordgpkqpj7skhel7uq	129	20	;	;	:
work_lfiiutwqordgpkqpj7skhel7uq	129	21	transverse	transverse	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	22	momenta	momenta	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	23	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	129	24	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	129	25	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	26	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	129	27	φ	φ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	28	mesons	meson	NNS
work_lfiiutwqordgpkqpj7skhel7uq	129	29	;	;	:
work_lfiiutwqordgpkqpj7skhel7uq	129	30	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	129	31	K	K	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	32	+	+	SYM
work_lfiiutwqordgpkqpj7skhel7uq	129	33	K−	K−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	34	mass	mass	NN
work_lfiiutwqordgpkqpj7skhel7uq	129	35	;	;	:
work_lfiiutwqordgpkqpj7skhel7uq	129	36	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	129	37	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	129	38	quality	quality	NN
work_lfiiutwqordgpkqpj7skhel7uq	129	39	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	129	40	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	129	41	vertex	vertex	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	42	fit	fit	NNP
work_lfiiutwqordgpkqpj7skhel7uq	129	43	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	130	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	130	2	fi-	fi-	XX
work_lfiiutwqordgpkqpj7skhel7uq	130	3	nal	nal	JJ
work_lfiiutwqordgpkqpj7skhel7uq	130	4	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	130	5	contains	contain	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	130	6	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	130	7	6500	6500	CD
work_lfiiutwqordgpkqpj7skhel7uq	130	8	signal	signal	JJ
work_lfiiutwqordgpkqpj7skhel7uq	130	9	events	event	NNS
work_lfiiutwqordgpkqpj7skhel7uq	130	10	over	over	IN
work_lfiiutwqordgpkqpj7skhel7uq	130	11	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	130	12	comparable	comparable	JJ
work_lfiiutwqordgpkqpj7skhel7uq	130	13	background	background	NN
work_lfiiutwqordgpkqpj7skhel7uq	130	14	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	130	15	fig	fig	NN
work_lfiiutwqordgpkqpj7skhel7uq	130	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	131	1	4	4	LS
work_lfiiutwqordgpkqpj7skhel7uq	131	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	131	3	left	leave	VBN
work_lfiiutwqordgpkqpj7skhel7uq	131	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	131	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	132	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	132	2	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	132	3	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	132	4	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	132	5	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	132	6	state	state	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	7	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	132	8	provide	provide	VBP
work_lfiiutwqordgpkqpj7skhel7uq	132	9	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	132	10	statistical	statistical	JJ
work_lfiiutwqordgpkqpj7skhel7uq	132	11	determination	determination	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	12	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	132	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	132	14	CP-	CP-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	132	15	composition	composition	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	16	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	132	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	132	18	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	19	thus	thus	RB
work_lfiiutwqordgpkqpj7skhel7uq	132	20	improving	improve	VBG
work_lfiiutwqordgpkqpj7skhel7uq	132	21	sensi-	sensi-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	132	22	tivity	tivity	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	23	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	132	24	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	132	25	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	132	26	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	133	1	Possible	possible	JJ
work_lfiiutwqordgpkqpj7skhel7uq	133	2	contributions	contribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	133	3	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	133	4	scalar	scalar	JJ
work_lfiiutwqordgpkqpj7skhel7uq	133	5	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	133	6	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	133	7	ψK+K−	ψK+K−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	133	8	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	133	9	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	133	10	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	133	11	ψf0(980	ψf0(980	NNP
work_lfiiutwqordgpkqpj7skhel7uq	133	12	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	133	13	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	133	14	states	state	NNS
work_lfiiutwqordgpkqpj7skhel7uq	133	15	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	133	16	included	include	VBN
work_lfiiutwqordgpkqpj7skhel7uq	133	17	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	133	18	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	133	19	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	133	20	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	133	21	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	134	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	134	2	pro-	pro-	NN
work_lfiiutwqordgpkqpj7skhel7uq	134	3	duction	duction	NN
work_lfiiutwqordgpkqpj7skhel7uq	134	4	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	134	5	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	134	6	inferred	infer	VBN
work_lfiiutwqordgpkqpj7skhel7uq	134	7	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	134	8	two	two	CD
work_lfiiutwqordgpkqpj7skhel7uq	134	9	classes	class	NNS
work_lfiiutwqordgpkqpj7skhel7uq	134	10	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	134	11	al-	al-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	134	12	gorithms	gorithm	NNS
work_lfiiutwqordgpkqpj7skhel7uq	134	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	135	1	Opposite	opposite	JJ
work_lfiiutwqordgpkqpj7skhel7uq	135	2	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	135	3	side	side	NN
work_lfiiutwqordgpkqpj7skhel7uq	135	4	tags	tag	NNS
work_lfiiutwqordgpkqpj7skhel7uq	135	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	135	6	OST	OST	NNP
work_lfiiutwqordgpkqpj7skhel7uq	135	7	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	135	8	exploit	exploit	VBP
work_lfiiutwqordgpkqpj7skhel7uq	135	9	fla-	fla-	NN
work_lfiiutwqordgpkqpj7skhel7uq	135	10	vor	vor	NNP
work_lfiiutwqordgpkqpj7skhel7uq	135	11	conservation	conservation	NN
work_lfiiutwqordgpkqpj7skhel7uq	135	12	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	135	13	strong	strong	JJ
work_lfiiutwqordgpkqpj7skhel7uq	135	14	interaction	interaction	NN
work_lfiiutwqordgpkqpj7skhel7uq	135	15	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	136	1	Being	be	VBG
work_lfiiutwqordgpkqpj7skhel7uq	136	2	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	3	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	136	4	quarks	quark	NNS
work_lfiiutwqordgpkqpj7skhel7uq	136	5	predominantly	predominantly	RB
work_lfiiutwqordgpkqpj7skhel7uq	136	6	produced	produce	VBD
work_lfiiutwqordgpkqpj7skhel7uq	136	7	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	8	pairs	pair	NNS
work_lfiiutwqordgpkqpj7skhel7uq	136	9	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	10	b̄	b̄	NNS
work_lfiiutwqordgpkqpj7skhel7uq	136	11	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	136	12	quarks	quark	NNS
work_lfiiutwqordgpkqpj7skhel7uq	136	13	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	136	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	136	15	production	production	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	16	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	17	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	136	18	inferred	infer	VBN
work_lfiiutwqordgpkqpj7skhel7uq	136	19	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	20	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	136	21	charge	charge	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	22	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	23	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	24	products	product	NNS
work_lfiiutwqordgpkqpj7skhel7uq	136	25	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	136	26	e	e	NNP
work_lfiiutwqordgpkqpj7skhel7uq	136	27	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	136	28	µ	µ	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	29	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	136	30	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	136	31	jet	jet	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	32	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	136	33	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	34	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	136	35	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	36	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	136	37	hadron	hadron	NNP
work_lfiiutwqordgpkqpj7skhel7uq	136	38	emitted	emit	VBD
work_lfiiutwqordgpkqpj7skhel7uq	136	39	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	40	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	136	41	opposite	opposite	JJ
work_lfiiutwqordgpkqpj7skhel7uq	136	42	hemisphere	hemisphere	NN
work_lfiiutwqordgpkqpj7skhel7uq	136	43	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	136	44	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	136	45	signal	signal	NNP
work_lfiiutwqordgpkqpj7skhel7uq	136	46	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	136	47	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	137	1	Same	same	JJ
work_lfiiutwqordgpkqpj7skhel7uq	137	2	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	137	3	side	side	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	4	tags	tag	NNS
work_lfiiutwqordgpkqpj7skhel7uq	137	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	137	6	SST	sst	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	7	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	137	8	exploit	exploit	VB
work_lfiiutwqordgpkqpj7skhel7uq	137	9	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	10	conservation	conservation	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	11	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	137	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	137	13	fragmentation	fragmentation	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	14	process	process	NN
work_lfiiutwqordgpkqpj7skhel7uq	137	15	that	that	WDT
work_lfiiutwqordgpkqpj7skhel7uq	137	16	leads	lead	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	137	17	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	137	18	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	137	19	signal	signal	NNP
work_lfiiutwqordgpkqpj7skhel7uq	137	20	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	137	21	meson	meson	NNP
work_lfiiutwqordgpkqpj7skhel7uq	137	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	138	1	Because	because	IN
work_lfiiutwqordgpkqpj7skhel7uq	138	2	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	3	ss̄	ss̄	CD
work_lfiiutwqordgpkqpj7skhel7uq	138	4	pair	pair	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	5	will	will	MD
work_lfiiutwqordgpkqpj7skhel7uq	138	6	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	138	7	required	require	VBN
work_lfiiutwqordgpkqpj7skhel7uq	138	8	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	138	9	form	form	VB
work_lfiiutwqordgpkqpj7skhel7uq	138	10	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	11	meson	meson	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	12	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	138	13	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	14	bottom	bottom	JJ
work_lfiiutwqordgpkqpj7skhel7uq	138	15	quark	quark	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	138	17	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	18	charge	charge	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	19	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	138	20	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	21	kaon	kaon	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	22	kinematically	kinematically	RB
work_lfiiutwqordgpkqpj7skhel7uq	138	23	close	close	JJ
work_lfiiutwqordgpkqpj7skhel7uq	138	24	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	138	25	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	138	26	bottom	bottom	JJ
work_lfiiutwqordgpkqpj7skhel7uq	138	27	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	138	28	strange	strange	JJ
work_lfiiutwqordgpkqpj7skhel7uq	138	29	meson	meson	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	30	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	138	31	correlated	correlate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	138	32	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	138	33	its	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	138	34	fla-	fla-	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	35	vor	vor	NN
work_lfiiutwqordgpkqpj7skhel7uq	138	36	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	139	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	139	2	performance	performance	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	139	4	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	5	taggers	tagger	NNS
work_lfiiutwqordgpkqpj7skhel7uq	139	6	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	139	7	modeled	model	VBN
work_lfiiutwqordgpkqpj7skhel7uq	139	8	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	139	9	function	function	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	10	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	139	11	many	many	JJ
work_lfiiutwqordgpkqpj7skhel7uq	139	12	event	event	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	13	properties	property	NNS
work_lfiiutwqordgpkqpj7skhel7uq	139	14	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	139	15	simu-	simu-	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	16	lations	lation	NNS
work_lfiiutwqordgpkqpj7skhel7uq	139	17	;	;	:
work_lfiiutwqordgpkqpj7skhel7uq	139	18	however	however	WRB
work_lfiiutwqordgpkqpj7skhel7uq	139	19	overall	overall	JJ
work_lfiiutwqordgpkqpj7skhel7uq	139	20	scale	scale	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	21	factors	factor	NNS
work_lfiiutwqordgpkqpj7skhel7uq	139	22	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	139	23	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	139	24	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	25	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	139	26	reality	reality	NN
work_lfiiutwqordgpkqpj7skhel7uq	139	27	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	139	28	allowed	allow	VBN
work_lfiiutwqordgpkqpj7skhel7uq	139	29	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	139	30	extracted	extract	VBN
work_lfiiutwqordgpkqpj7skhel7uq	139	31	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	139	32	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	139	33	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	140	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	140	2	uncertainty	uncertainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	140	3	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	140	4	their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	140	5	determina-	determina-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	140	6	tion	tion	NN
work_lfiiutwqordgpkqpj7skhel7uq	140	7	contributes	contribute	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	140	8	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	140	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	140	10	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	140	11	systematic	systematic	JJ
work_lfiiutwqordgpkqpj7skhel7uq	140	12	uncer-	uncer-	NN
work_lfiiutwqordgpkqpj7skhel7uq	140	13	tainty	tainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	140	14	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	140	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	140	16	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	140	17	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	141	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	2	tagging	tag	VBG
work_lfiiutwqordgpkqpj7skhel7uq	141	3	power	power	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	141	5	ǫD2	ǫd2	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	141	7	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	141	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	9	product	product	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	10	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	141	11	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	12	efficiency	efficiency	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	13	ǫ	ǫ	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	14	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	141	15	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	16	fraction	fraction	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	17	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	141	18	candidates	candidate	NNS
work_lfiiutwqordgpkqpj7skhel7uq	141	19	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	141	20	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	21	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	22	tag	tag	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	23	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	141	24	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	141	25	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	26	square	square	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	27	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	141	28	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	29	dilution	dilution	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	30	D	d	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	31	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	141	32	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	141	33	−	−	NNP
work_lfiiutwqordgpkqpj7skhel7uq	141	34	2w	2w	CD
work_lfiiutwqordgpkqpj7skhel7uq	141	35	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	141	36	where	where	WRB
work_lfiiutwqordgpkqpj7skhel7uq	141	37	w	w	NNP
work_lfiiutwqordgpkqpj7skhel7uq	141	38	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	141	39	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	141	40	mis-	mis-	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	41	tag	tag	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	42	probability	probability	NN
work_lfiiutwqordgpkqpj7skhel7uq	141	43	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	142	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	142	2	calibrate	calibrate	VBP
work_lfiiutwqordgpkqpj7skhel7uq	142	3	independently	independently	RB
work_lfiiutwqordgpkqpj7skhel7uq	142	4	b	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	142	5	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	142	6	b̄	b̄	NNP
work_lfiiutwqordgpkqpj7skhel7uq	142	7	OST	OST	NNP
work_lfiiutwqordgpkqpj7skhel7uq	142	8	tags	tag	NNS
work_lfiiutwqordgpkqpj7skhel7uq	142	9	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	142	10	52,000	52,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	142	11	B+	B+	NNS
work_lfiiutwqordgpkqpj7skhel7uq	142	12	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	142	13	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	142	14	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	142	15	ψK+	ψK+	NNP
work_lfiiutwqordgpkqpj7skhel7uq	142	16	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	142	17	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	143	1	Predicted	predict	VBN
work_lfiiutwqordgpkqpj7skhel7uq	143	2	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	143	3	measured	measured	JJ
work_lfiiutwqordgpkqpj7skhel7uq	143	4	dilutions	dilution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	143	5	agree	agree	VBP
work_lfiiutwqordgpkqpj7skhel7uq	143	6	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	143	7	scale	scale	NN
work_lfiiutwqordgpkqpj7skhel7uq	143	8	factors	factor	NNS
work_lfiiutwqordgpkqpj7skhel7uq	143	9	close	close	JJ
work_lfiiutwqordgpkqpj7skhel7uq	143	10	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	143	11	unity	unity	NN
work_lfiiutwqordgpkqpj7skhel7uq	143	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	144	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	144	2	observed	observed	JJ
work_lfiiutwqordgpkqpj7skhel7uq	144	3	tagging	tag	VBG
work_lfiiutwqordgpkqpj7skhel7uq	144	4	effi-	effi-	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	5	ciency	ciency	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	6	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	144	7	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	144	8	94.2	94.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	9	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	144	10	0.4)%	0.4)%	NNP
work_lfiiutwqordgpkqpj7skhel7uq	144	11	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	144	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	144	13	average	average	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	14	predicted	predict	VBD
work_lfiiutwqordgpkqpj7skhel7uq	144	15	dilution	dilution	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	16	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	144	17	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	18	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	144	19	√	√	NNP
work_lfiiutwqordgpkqpj7skhel7uq	144	20	〈	〈	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	144	21	D2	D2	NNP
work_lfiiutwqordgpkqpj7skhel7uq	144	22	〉	〉	NNP
work_lfiiutwqordgpkqpj7skhel7uq	144	23	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	144	24	0.110	0.110	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	25	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	26	0.002	0.002	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	27	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	144	28	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	144	29	1.03	1.03	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	30	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	31	0.06	0.06	CD
work_lfiiutwqordgpkqpj7skhel7uq	144	32	scale	scale	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	33	factor	factor	NN
work_lfiiutwqordgpkqpj7skhel7uq	144	34	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	145	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	145	2	SST	sst	NN
work_lfiiutwqordgpkqpj7skhel7uq	145	3	calibration	calibration	NN
work_lfiiutwqordgpkqpj7skhel7uq	145	4	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	145	5	obtained	obtain	VBN
work_lfiiutwqordgpkqpj7skhel7uq	145	6	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	145	7	repeating	repeat	VBG
work_lfiiutwqordgpkqpj7skhel7uq	145	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	145	9	full	full	JJ
work_lfiiutwqordgpkqpj7skhel7uq	145	10	mixing	mix	VBG
work_lfiiutwqordgpkqpj7skhel7uq	145	11	analysis	analysis	NN
work_lfiiutwqordgpkqpj7skhel7uq	145	12	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	145	13	13,000	13,000	CD
work_lfiiutwqordgpkqpj7skhel7uq	145	14	B0s	b0	NNS
work_lfiiutwqordgpkqpj7skhel7uq	145	15	→	→	SYM
work_lfiiutwqordgpkqpj7skhel7uq	145	16	D−s	D−s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	145	17	π+(π+π−	π+(π+π−	NN
work_lfiiutwqordgpkqpj7skhel7uq	145	18	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	145	19	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	145	20	7	7	CD
work_lfiiutwqordgpkqpj7skhel7uq	145	21	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	145	22	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	146	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	146	2	result-	result-	NN
work_lfiiutwqordgpkqpj7skhel7uq	146	3	ing	ing	NN
work_lfiiutwqordgpkqpj7skhel7uq	146	4	frequency	frequency	NN
work_lfiiutwqordgpkqpj7skhel7uq	146	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	146	6	∆ms	∆ms	NNP
work_lfiiutwqordgpkqpj7skhel7uq	146	7	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	146	8	17.79	17.79	CD
work_lfiiutwqordgpkqpj7skhel7uq	146	9	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	146	10	0.07	0.07	CD
work_lfiiutwqordgpkqpj7skhel7uq	146	11	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	146	12	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	146	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	146	14	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	147	1	ps−1	ps−1	UH
work_lfiiutwqordgpkqpj7skhel7uq	147	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	147	3	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	147	4	fully	fully	RB
work_lfiiutwqordgpkqpj7skhel7uq	147	5	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	147	6	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	147	7	published	publish	VBN
work_lfiiutwqordgpkqpj7skhel7uq	147	8	values	value	NNS
work_lfiiutwqordgpkqpj7skhel7uq	147	9	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	147	10	fig	fig	NN
work_lfiiutwqordgpkqpj7skhel7uq	147	11	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	148	1	4	4	LS
work_lfiiutwqordgpkqpj7skhel7uq	148	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	148	3	right	right	JJ
work_lfiiutwqordgpkqpj7skhel7uq	148	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	148	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	149	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	149	2	scale	scale	NN
work_lfiiutwqordgpkqpj7skhel7uq	149	3	factor	factor	NN
work_lfiiutwqordgpkqpj7skhel7uq	149	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	149	5	A	a	NN
work_lfiiutwqordgpkqpj7skhel7uq	149	6	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	149	7	0.94	0.94	CD
work_lfiiutwqordgpkqpj7skhel7uq	149	8	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	149	9	0.15	0.15	CD
work_lfiiutwqordgpkqpj7skhel7uq	149	10	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	149	11	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	149	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	149	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	150	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	150	2	0.13	0.13	CD
work_lfiiutwqordgpkqpj7skhel7uq	150	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	150	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	150	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	150	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	151	1	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	151	2	given	give	VBN
work_lfiiutwqordgpkqpj7skhel7uq	151	3	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	151	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	151	5	size	size	NN
work_lfiiutwqordgpkqpj7skhel7uq	151	6	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	151	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	151	8	amplitude	amplitude	NN
work_lfiiutwqordgpkqpj7skhel7uq	151	9	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	151	10	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	151	11	mixing	mixing	NN
work_lfiiutwqordgpkqpj7skhel7uq	151	12	frequency	frequency	NN
work_lfiiutwqordgpkqpj7skhel7uq	151	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	152	1	This	this	DT
work_lfiiutwqordgpkqpj7skhel7uq	152	2	corresponds	correspond	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	152	3	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	152	4	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	152	5	tagging	tag	VBG
work_lfiiutwqordgpkqpj7skhel7uq	152	6	efficiency	efficiency	NN
work_lfiiutwqordgpkqpj7skhel7uq	152	7	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	152	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	152	9	52.2	52.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	152	10	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	152	11	0.7)%	0.7)%	NNP
work_lfiiutwqordgpkqpj7skhel7uq	152	12	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	152	13	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	152	14	aver-	aver-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	152	15	age	age	NN
work_lfiiutwqordgpkqpj7skhel7uq	152	16	dilution	dilution	NN
work_lfiiutwqordgpkqpj7skhel7uq	152	17	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	152	18	signal	signal	NN
work_lfiiutwqordgpkqpj7skhel7uq	152	19	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	152	20	√	√	NNP
work_lfiiutwqordgpkqpj7skhel7uq	152	21	〈	〈	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	152	22	D2	D2	NNP
work_lfiiutwqordgpkqpj7skhel7uq	152	23	〉	〉	NNP
work_lfiiutwqordgpkqpj7skhel7uq	152	24	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	152	25	0.275	0.275	CD
work_lfiiutwqordgpkqpj7skhel7uq	152	26	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	152	27	0.003	0.003	CD
work_lfiiutwqordgpkqpj7skhel7uq	152	28	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	153	1	Multiple	multiple	JJ
work_lfiiutwqordgpkqpj7skhel7uq	153	2	tags	tag	NNS
work_lfiiutwqordgpkqpj7skhel7uq	153	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	153	4	if	if	IN
work_lfiiutwqordgpkqpj7skhel7uq	153	5	any	any	DT
work_lfiiutwqordgpkqpj7skhel7uq	153	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	153	7	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	153	8	combined	combine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	153	9	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	153	10	indepen-	indepen-	NN
work_lfiiutwqordgpkqpj7skhel7uq	153	11	dent	dent	NN
work_lfiiutwqordgpkqpj7skhel7uq	153	12	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	153	13	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	153	14	total	total	JJ
work_lfiiutwqordgpkqpj7skhel7uq	153	15	tagging	tag	VBG
work_lfiiutwqordgpkqpj7skhel7uq	153	16	power	power	NN
work_lfiiutwqordgpkqpj7skhel7uq	153	17	ǫD2	ǫd2	NN
work_lfiiutwqordgpkqpj7skhel7uq	153	18	≈	≈	IN
work_lfiiutwqordgpkqpj7skhel7uq	153	19	4.5	4.5	CD
work_lfiiutwqordgpkqpj7skhel7uq	153	20	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	153	21	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	154	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	154	2	proper	proper	JJ
work_lfiiutwqordgpkqpj7skhel7uq	154	3	time	time	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	4	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	154	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	154	6	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	154	8	its	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	154	9	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	10	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	154	11	known	know	VBN
work_lfiiutwqordgpkqpj7skhel7uq	154	12	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	154	13	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	154	14	per	per	IN
work_lfiiutwqordgpkqpj7skhel7uq	154	15	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	154	16	candidate	candidate	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	17	basis	basis	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	18	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	154	19	an	an	DT
work_lfiiutwqordgpkqpj7skhel7uq	154	20	average	average	JJ
work_lfiiutwqordgpkqpj7skhel7uq	154	21	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	22	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	154	23	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	154	24	90	90	CD
work_lfiiutwqordgpkqpj7skhel7uq	154	25	fs−1	fs−1	NN
work_lfiiutwqordgpkqpj7skhel7uq	154	26	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	155	1	Information	information	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	2	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	3	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	155	4	candidate	candidate	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	5	mass	mass	NNP
work_lfiiutwqordgpkqpj7skhel7uq	155	6	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	155	7	its	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	155	8	uncertainty	uncertainty	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	155	10	angles	angle	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	155	11	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	155	12	between	between	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	13	final	final	JJ
work_lfiiutwqordgpkqpj7skhel7uq	155	14	state	state	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	15	particles	particle	NNS
work_lfiiutwqordgpkqpj7skhel7uq	155	16	’	’	POS
work_lfiiutwqordgpkqpj7skhel7uq	155	17	trajectories	trajectory	NNS
work_lfiiutwqordgpkqpj7skhel7uq	155	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	155	19	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	155	20	ex-	ex-	XX
work_lfiiutwqordgpkqpj7skhel7uq	155	21	tract	tract	VB
work_lfiiutwqordgpkqpj7skhel7uq	155	22	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	155	23	CP	CP	NNP
work_lfiiutwqordgpkqpj7skhel7uq	155	24	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	155	25	composition	composition	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	26	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	155	27	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	155	28	production	production	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	29	flavor	flavor	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	30	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	155	31	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	155	32	decay	decay	VB
work_lfiiutwqordgpkqpj7skhel7uq	155	33	length	length	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	34	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	155	35	its	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	155	36	resolution	resolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	37	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	155	38	used	use	VBN
work_lfiiutwqordgpkqpj7skhel7uq	155	39	as	as	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	40	observ-	observ-	FW
work_lfiiutwqordgpkqpj7skhel7uq	155	41	ables	able	NNS
work_lfiiutwqordgpkqpj7skhel7uq	155	42	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	43	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	155	44	multivariate	multivariate	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	45	unbinned	unbinned	JJ
work_lfiiutwqordgpkqpj7skhel7uq	155	46	likelihood	likelihood	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	47	fit	fit	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	48	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	49	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	155	50	time	time	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	51	evolution	evolution	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	52	that	that	WDT
work_lfiiutwqordgpkqpj7skhel7uq	155	53	accounts	account	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	155	54	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	55	direct	direct	JJ
work_lfiiutwqordgpkqpj7skhel7uq	155	56	de-	de-	DT
work_lfiiutwqordgpkqpj7skhel7uq	155	57	cay	cay	NNP
work_lfiiutwqordgpkqpj7skhel7uq	155	58	amplitude	amplitude	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	59	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	155	60	mixing	mix	VBG
work_lfiiutwqordgpkqpj7skhel7uq	155	61	followed	follow	VBN
work_lfiiutwqordgpkqpj7skhel7uq	155	62	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	155	63	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	155	64	decay	decay	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	65	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	155	66	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	155	67	their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	155	68	interference	interference	NN
work_lfiiutwqordgpkqpj7skhel7uq	155	69	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	156	1	Direct	direct	JJ
work_lfiiutwqordgpkqpj7skhel7uq	156	2	CP	cp	NN
work_lfiiutwqordgpkqpj7skhel7uq	156	3	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	156	4	violation	violation	NN
work_lfiiutwqordgpkqpj7skhel7uq	156	5	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	156	6	expected	expect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	156	7	small	small	JJ
work_lfiiutwqordgpkqpj7skhel7uq	156	8	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	156	9	neglected	neglect	VBN
work_lfiiutwqordgpkqpj7skhel7uq	156	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	157	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	2	fit	fit	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	3	determines	determine	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	157	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	5	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	6	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	7	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	157	9	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	10	s	s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	12	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	13	decay	decay	JJ
work_lfiiutwqordgpkqpj7skhel7uq	157	14	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	157	15	width	width	JJ
work_lfiiutwqordgpkqpj7skhel7uq	157	16	difference	difference	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	17	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	18	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	19	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	157	20	many	many	JJ
work_lfiiutwqordgpkqpj7skhel7uq	157	21	other	other	JJ
work_lfiiutwqordgpkqpj7skhel7uq	157	22	“	"	``
work_lfiiutwqordgpkqpj7skhel7uq	157	23	nuisance	nuisance	JJ
work_lfiiutwqordgpkqpj7skhel7uq	157	24	”	"	''
work_lfiiutwqordgpkqpj7skhel7uq	157	25	parameters	parameter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	157	26	including	include	VBG
work_lfiiutwqordgpkqpj7skhel7uq	157	27	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	28	mean	mean	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	29	B0s	B0s	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	30	lifetime	lifetime	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	31	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	32	2/(ΓL	2/(γl	CD
work_lfiiutwqordgpkqpj7skhel7uq	157	33	+	+	SYM
work_lfiiutwqordgpkqpj7skhel7uq	157	34	ΓH	γh	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	35	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	36	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	37	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	38	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	39	magnitudes	magnitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	157	40	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	157	41	lin-	lin-	XX
work_lfiiutwqordgpkqpj7skhel7uq	157	42	ear	ear	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	43	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	44	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	157	45	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	46	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	157	47	CP	cp	NN
work_lfiiutwqordgpkqpj7skhel7uq	157	48	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	157	49	conserving	conserve	VBG
work_lfiiutwqordgpkqpj7skhel7uq	157	50	phases	phase	NNS
work_lfiiutwqordgpkqpj7skhel7uq	157	51	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	52	δ‖	δ‖	ADD
work_lfiiutwqordgpkqpj7skhel7uq	157	53	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	157	54	arg(A‖A	arg(a‖a	CD
work_lfiiutwqordgpkqpj7skhel7uq	157	55	∗	∗	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	56	0	0	NFP
work_lfiiutwqordgpkqpj7skhel7uq	157	57	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	58	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	59	δ⊥	δ⊥	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	60	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	157	61	arg(A⊥A	arg(a⊥a	CD
work_lfiiutwqordgpkqpj7skhel7uq	157	62	∗	∗	NNP
work_lfiiutwqordgpkqpj7skhel7uq	157	63	0	0	NFP
work_lfiiutwqordgpkqpj7skhel7uq	157	64	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	65	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	157	66	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	157	67	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	157	68	others	other	NNS
work_lfiiutwqordgpkqpj7skhel7uq	157	69	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	158	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	158	2	acceptance	acceptance	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	3	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	158	5	detector	detector	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	6	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	158	7	calcu-	calcu-	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	8	lated	late	VBN
work_lfiiutwqordgpkqpj7skhel7uq	158	9	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	10	simulation	simulation	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	11	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	158	12	found	find	VBN
work_lfiiutwqordgpkqpj7skhel7uq	158	13	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	158	14	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	158	15	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	158	16	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	17	angular	angular	JJ
work_lfiiutwqordgpkqpj7skhel7uq	158	18	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	19	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	20	random	random	JJ
work_lfiiutwqordgpkqpj7skhel7uq	158	21	combina-	combina-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	158	22	tions	tion	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	23	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	24	four	four	CD
work_lfiiutwqordgpkqpj7skhel7uq	158	25	tracks	track	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	26	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	27	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	28	;	;	:
work_lfiiutwqordgpkqpj7skhel7uq	158	29	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	158	30	fit	fit	JJ
work_lfiiutwqordgpkqpj7skhel7uq	158	31	model	model	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	32	was	be	VBD
work_lfiiutwqordgpkqpj7skhel7uq	158	33	validated	validate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	158	34	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	35	measuring	measure	VBG
work_lfiiutwqordgpkqpj7skhel7uq	158	36	lifetime	lifetime	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	37	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	158	38	polarization	polarization	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	39	amplitudes	amplitude	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	40	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	41	B0	b0	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	42	→	→	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	43	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	158	44	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	158	45	ψK∗0	ψK∗0	NNP
work_lfiiutwqordgpkqpj7skhel7uq	158	46	decays	decay	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	47	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	158	48	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	158	49	consis-	consis-	VBN
work_lfiiutwqordgpkqpj7skhel7uq	158	50	tent	tent	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	51	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	158	52	B	b	NN
work_lfiiutwqordgpkqpj7skhel7uq	158	53	–	–	:
work_lfiiutwqordgpkqpj7skhel7uq	158	54	factories	factory	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	55	measurements	measurement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	158	56	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	158	57	9	9	CD
work_lfiiutwqordgpkqpj7skhel7uq	158	58	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	158	59	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	159	1	For	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	159	2	enhanced	enhanced	JJ
work_lfiiutwqordgpkqpj7skhel7uq	159	3	precision	precision	NN
work_lfiiutwqordgpkqpj7skhel7uq	159	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	159	5	all	all	DT
work_lfiiutwqordgpkqpj7skhel7uq	159	6	parameters	parameter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	159	7	but	but	CC
work_lfiiutwqordgpkqpj7skhel7uq	159	8	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	159	9	mixing	mixing	JJ
work_lfiiutwqordgpkqpj7skhel7uq	159	10	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	159	11	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	159	12	determined	determine	VBN
work_lfiiutwqordgpkqpj7skhel7uq	159	13	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	159	14	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	159	15	fit	fit	NN
work_lfiiutwqordgpkqpj7skhel7uq	159	16	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	159	17	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	159	18	fixed	fix	VBN
work_lfiiutwqordgpkqpj7skhel7uq	159	19	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	159	20	zero	zero	CD
work_lfiiutwqordgpkqpj7skhel7uq	159	21	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	159	22	cτ(B0s	cτ(b0	NNS
work_lfiiutwqordgpkqpj7skhel7uq	159	23	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	159	24	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	159	25	458.6	458.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	159	26	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	159	27	7.6	7.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	159	28	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	159	29	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	159	30	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	159	31	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	160	1	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	160	2	3.6	3.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	160	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	160	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	160	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	160	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	161	1	µm	µm	NNP
work_lfiiutwqordgpkqpj7skhel7uq	161	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	161	3	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	161	4	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	161	5	0.075	0.075	CD
work_lfiiutwqordgpkqpj7skhel7uq	161	6	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	161	7	0.035	0.035	CD
work_lfiiutwqordgpkqpj7skhel7uq	161	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	161	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	161	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	161	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	162	1	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	162	2	0.010	0.010	CD
work_lfiiutwqordgpkqpj7skhel7uq	162	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	162	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	162	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	162	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	163	1	ps−1	ps−1	NNP
work_lfiiutwqordgpkqpj7skhel7uq	163	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	163	3	|A|||2	|A|||2	NNP
work_lfiiutwqordgpkqpj7skhel7uq	163	4	=	=	NFP
work_lfiiutwqordgpkqpj7skhel7uq	163	5	0.231±0.014	0.231±0.014	CD
work_lfiiutwqordgpkqpj7skhel7uq	163	6	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	163	7	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	163	8	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	163	9	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	164	1	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	164	2	0.015	0.015	CD
work_lfiiutwqordgpkqpj7skhel7uq	164	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	164	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	164	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	165	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	165	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	165	3	|A0|2	|A0|2	NNS
work_lfiiutwqordgpkqpj7skhel7uq	165	4	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	165	5	0.524	0.524	CD
work_lfiiutwqordgpkqpj7skhel7uq	165	6	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	165	7	0.013	0.013	CD
work_lfiiutwqordgpkqpj7skhel7uq	165	8	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	165	9	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	165	10	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	165	11	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	166	1	±	±	NNP
work_lfiiutwqordgpkqpj7skhel7uq	166	2	0.015	0.015	CD
work_lfiiutwqordgpkqpj7skhel7uq	166	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	166	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	166	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	167	1	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	167	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	167	3	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	167	4	δ⊥	δ⊥	NNP
work_lfiiutwqordgpkqpj7skhel7uq	167	5	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	167	6	2.95	2.95	CD
work_lfiiutwqordgpkqpj7skhel7uq	167	7	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	167	8	0.64	0.64	CD
work_lfiiutwqordgpkqpj7skhel7uq	167	9	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	167	10	stat	stat	JJ
work_lfiiutwqordgpkqpj7skhel7uq	167	11	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	167	12	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	168	1	±	±	CD
work_lfiiutwqordgpkqpj7skhel7uq	168	2	0.07	0.07	CD
work_lfiiutwqordgpkqpj7skhel7uq	168	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	168	4	syst	syst	NN
work_lfiiutwqordgpkqpj7skhel7uq	168	5	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	168	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	169	1	rad	rad	NNP
work_lfiiutwqordgpkqpj7skhel7uq	169	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	170	1	These	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	170	2	results	result	NNS
work_lfiiutwqordgpkqpj7skhel7uq	170	3	represent	represent	VBP
work_lfiiutwqordgpkqpj7skhel7uq	170	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	170	5	cur-	cur-	NN
work_lfiiutwqordgpkqpj7skhel7uq	170	6	rent	rent	VB
work_lfiiutwqordgpkqpj7skhel7uq	170	7	best	good	JJS
work_lfiiutwqordgpkqpj7skhel7uq	170	8	measurements	measurement	NNS
work_lfiiutwqordgpkqpj7skhel7uq	170	9	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	170	10	these	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	170	11	quantities	quantity	NNS
work_lfiiutwqordgpkqpj7skhel7uq	170	12	from	from	IN
work_lfiiutwqordgpkqpj7skhel7uq	170	13	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	170	14	single	single	JJ
work_lfiiutwqordgpkqpj7skhel7uq	170	15	experiment	experiment	NN
work_lfiiutwqordgpkqpj7skhel7uq	170	16	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	171	1	With	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	171	2	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	171	3	floating	float	VBG
work_lfiiutwqordgpkqpj7skhel7uq	171	4	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	171	5	fits	fit	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	171	6	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	171	7	simulated	simulate	VBN
work_lfiiutwqordgpkqpj7skhel7uq	171	8	samples	sample	NNS
work_lfiiutwqordgpkqpj7skhel7uq	171	9	show	show	VBP
work_lfiiutwqordgpkqpj7skhel7uq	171	10	biased	biased	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	171	12	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	13	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	14	Gaussian	gaussian	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	15	distributions	distribution	NNS
work_lfiiutwqordgpkqpj7skhel7uq	171	16	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	171	17	esti-	esti-	NN
work_lfiiutwqordgpkqpj7skhel7uq	171	18	mates	mate	NNS
work_lfiiutwqordgpkqpj7skhel7uq	171	19	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	171	20	multiple	multiple	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	21	maxima	maxima	NNP
work_lfiiutwqordgpkqpj7skhel7uq	171	22	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	171	23	because	because	IN
work_lfiiutwqordgpkqpj7skhel7uq	171	24	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	171	25	known	known	JJ
work_lfiiutwqordgpkqpj7skhel7uq	171	26	likelihood	likelihood	NN
work_lfiiutwqordgpkqpj7skhel7uq	171	27	symmetries	symmetry	NNS
work_lfiiutwqordgpkqpj7skhel7uq	171	28	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	172	1	We	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	172	2	use	use	VBP
work_lfiiutwqordgpkqpj7skhel7uq	172	3	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	172	4	frequentist	frequentist	JJ
work_lfiiutwqordgpkqpj7skhel7uq	172	5	con-	con-	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	6	fidence	fidence	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	7	region	region	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	8	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	172	9	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	172	10	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	172	11	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	172	12	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	172	13	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	172	14	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	172	15	s	s	POS
work_lfiiutwqordgpkqpj7skhel7uq	172	16	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	172	17	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	172	18	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	172	19	plane	plane	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	20	using	use	VBG
work_lfiiutwqordgpkqpj7skhel7uq	172	21	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	172	22	profile	profile	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	23	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	172	24	likelihood	likelihood	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	25	ratio	ratio	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	26	ordering	order	VBG
work_lfiiutwqordgpkqpj7skhel7uq	172	27	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	172	28	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	172	29	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	172	30	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	172	31	which	which	WDT
work_lfiiutwqordgpkqpj7skhel7uq	172	32	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	172	33	close	close	JJ
work_lfiiutwqordgpkqpj7skhel7uq	172	34	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	172	35	optimal	optimal	VB
work_lfiiutwqordgpkqpj7skhel7uq	172	36	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	172	37	limiting	limit	VBG
work_lfiiutwqordgpkqpj7skhel7uq	172	38	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	172	39	impact	impact	NN
work_lfiiutwqordgpkqpj7skhel7uq	172	40	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	172	41	sys-	sys-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	172	42	tematic	tematic	JJ
work_lfiiutwqordgpkqpj7skhel7uq	172	43	uncertainties	uncertainty	NNS
work_lfiiutwqordgpkqpj7skhel7uq	172	44	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	173	1	These	these	DT
work_lfiiutwqordgpkqpj7skhel7uq	173	2	are	be	VBP
work_lfiiutwqordgpkqpj7skhel7uq	173	3	included	include	VBN
work_lfiiutwqordgpkqpj7skhel7uq	173	4	by	by	IN
work_lfiiutwqordgpkqpj7skhel7uq	173	5	ran-	ran-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	173	6	domly	domly	RB
work_lfiiutwqordgpkqpj7skhel7uq	173	7	sampling	sample	VBG
work_lfiiutwqordgpkqpj7skhel7uq	173	8	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	173	9	limited	limited	JJ
work_lfiiutwqordgpkqpj7skhel7uq	173	10	number	number	NN
work_lfiiutwqordgpkqpj7skhel7uq	173	11	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	173	12	points	point	NNS
work_lfiiutwqordgpkqpj7skhel7uq	173	13	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	173	14	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	173	15	space	space	NN
work_lfiiutwqordgpkqpj7skhel7uq	173	16	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	173	17	all	all	DT
work_lfiiutwqordgpkqpj7skhel7uq	173	18	nuisance	nuisance	JJ
work_lfiiutwqordgpkqpj7skhel7uq	173	19	parameters	parameter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	173	20	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	174	1	A	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	174	2	specific	specific	JJ
work_lfiiutwqordgpkqpj7skhel7uq	174	3	value	value	NN
work_lfiiutwqordgpkqpj7skhel7uq	174	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	174	5	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	174	6	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	174	7	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	174	8	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	174	9	s	s	POS
work_lfiiutwqordgpkqpj7skhel7uq	174	10	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	174	11	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	174	12	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	174	13	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	174	14	excluded	exclude	VBN
work_lfiiutwqordgpkqpj7skhel7uq	174	15	only	only	RB
work_lfiiutwqordgpkqpj7skhel7uq	174	16	if	if	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	17	it	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	174	18	can	can	MD
work_lfiiutwqordgpkqpj7skhel7uq	174	19	be	be	VB
work_lfiiutwqordgpkqpj7skhel7uq	174	20	excluded	exclude	VBN
work_lfiiutwqordgpkqpj7skhel7uq	174	21	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	22	any	any	DT
work_lfiiutwqordgpkqpj7skhel7uq	174	23	assumed	assumed	JJ
work_lfiiutwqordgpkqpj7skhel7uq	174	24	value	value	NN
work_lfiiutwqordgpkqpj7skhel7uq	174	25	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	26	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	174	27	nuisance	nuisance	JJ
work_lfiiutwqordgpkqpj7skhel7uq	174	28	parameters	parameter	NNS
work_lfiiutwqordgpkqpj7skhel7uq	174	29	within	within	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	30	5σ	5σ	CD
work_lfiiutwqordgpkqpj7skhel7uq	174	31	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	32	their	-PRON-	PRP$
work_lfiiutwqordgpkqpj7skhel7uq	174	33	estimate	estimate	NN
work_lfiiutwqordgpkqpj7skhel7uq	174	34	on	on	IN
work_lfiiutwqordgpkqpj7skhel7uq	174	35	data	datum	NNS
work_lfiiutwqordgpkqpj7skhel7uq	174	36	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	175	1	The	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	175	2	resulting	result	VBG
work_lfiiutwqordgpkqpj7skhel7uq	175	3	allowed	allow	VBN
work_lfiiutwqordgpkqpj7skhel7uq	175	4	region	region	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	5	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	175	6	greatly	greatly	RB
work_lfiiutwqordgpkqpj7skhel7uq	175	7	reduced	reduce	VBN
work_lfiiutwqordgpkqpj7skhel7uq	175	8	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	175	9	respect	respect	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	10	to	to	IN
work_lfiiutwqordgpkqpj7skhel7uq	175	11	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	175	12	previous	previous	JJ
work_lfiiutwqordgpkqpj7skhel7uq	175	13	measurement	measurement	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	14	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	175	15	is	be	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	175	16	fairly	fairly	RB
work_lfiiutwqordgpkqpj7skhel7uq	175	17	consistent	consistent	JJ
work_lfiiutwqordgpkqpj7skhel7uq	175	18	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	19	0.8σ	0.8σ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	20	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	21	with	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	175	22	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	175	23	SM	sm	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	24	:	:	:
work_lfiiutwqordgpkqpj7skhel7uq	175	25	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	175	26	range	range	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	27	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	28	0.02	0.02	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	29	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	175	30	0.52]∪[1.08	0.52]∪[1.08	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	31	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	175	32	1.55	1.55	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	33	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	34	contains	contain	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	175	35	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	175	36	βJ	βJ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	37	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	175	38	ψφs	ψφs	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	39	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	40	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	41	rad	rad	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	42	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	43	sβ	sβ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	44	-1	-1	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	45	0	0	NFP
work_lfiiutwqordgpkqpj7skhel7uq	175	46	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	47	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	48	-1	-1	.
work_lfiiutwqordgpkqpj7skhel7uq	175	49	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	175	50	p	p	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	51	s	s	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	52	Γ	Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	53	∆	∆	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	54	-0.6	-0.6	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	55	-0.4	-0.4	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	56	-0.2	-0.2	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	57	0.0	0.0	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	58	0.2	0.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	59	0.4	0.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	60	0.6	0.6	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	61	-1	-1	.
work_lfiiutwqordgpkqpj7skhel7uq	175	62	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	63	Run	Run	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	64	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	65	Preliminary	Preliminary	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	66	L	L	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	67	=	=	SYM
work_lfiiutwqordgpkqpj7skhel7uq	175	68	5.2	5.2	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	69	fb	fb	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	70	95	95	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	71	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	72	CL	CL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	73	68	68	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	74	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	75	CL	CL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	76	SM	SM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	175	77	prediction	prediction	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	78	Figure	figure	NN
work_lfiiutwqordgpkqpj7skhel7uq	175	79	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	175	80	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	176	1	Confidence	confidence	NN
work_lfiiutwqordgpkqpj7skhel7uq	176	2	region	region	NN
work_lfiiutwqordgpkqpj7skhel7uq	176	3	in	in	IN
work_lfiiutwqordgpkqpj7skhel7uq	176	4	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	176	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	176	6	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	176	7	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	176	8	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	176	9	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	176	10	s	s	POS
work_lfiiutwqordgpkqpj7skhel7uq	176	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	176	12	∆Γ	∆Γ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	176	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	176	14	plane	plane	NN
work_lfiiutwqordgpkqpj7skhel7uq	176	15	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	177	1	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	177	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	177	3	68	68	CD
work_lfiiutwqordgpkqpj7skhel7uq	177	4	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	177	5	CL	CL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	177	6	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	177	7	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	177	8	range	range	NN
work_lfiiutwqordgpkqpj7skhel7uq	177	9	[	[	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	177	10	-π/2	-π/2	NNS
work_lfiiutwqordgpkqpj7skhel7uq	177	11	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	177	12	-1.44	-1.44	LS
work_lfiiutwqordgpkqpj7skhel7uq	177	13	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	177	14	∪[-0.13	∪[-0.13	NNP
work_lfiiutwqordgpkqpj7skhel7uq	177	15	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	177	16	0.68]∪[0.89	0.68]∪[0.89	NNP
work_lfiiutwqordgpkqpj7skhel7uq	177	17	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	177	18	π/2	π/2	NNS
work_lfiiutwqordgpkqpj7skhel7uq	177	19	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	177	20	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	177	21	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	177	22	95	95	CD
work_lfiiutwqordgpkqpj7skhel7uq	177	23	%	%	NN
work_lfiiutwqordgpkqpj7skhel7uq	177	24	CL	CL	NNP
work_lfiiutwqordgpkqpj7skhel7uq	177	25	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	178	1	With	with	IN
work_lfiiutwqordgpkqpj7skhel7uq	178	2	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	178	3	full	full	JJ
work_lfiiutwqordgpkqpj7skhel7uq	178	4	Run	run	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	5	II	II	NNP
work_lfiiutwqordgpkqpj7skhel7uq	178	6	data	data	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	7	sample	sample	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	8	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	178	9	we	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	178	10	expect	expect	VBP
work_lfiiutwqordgpkqpj7skhel7uq	178	11	to	to	TO
work_lfiiutwqordgpkqpj7skhel7uq	178	12	observe	observe	VB
work_lfiiutwqordgpkqpj7skhel7uq	178	13	a	a	DT
work_lfiiutwqordgpkqpj7skhel7uq	178	14	non	non	JJ
work_lfiiutwqordgpkqpj7skhel7uq	178	15	-	-	JJ
work_lfiiutwqordgpkqpj7skhel7uq	178	16	SM	sm	JJ
work_lfiiutwqordgpkqpj7skhel7uq	178	17	phase	phase	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	18	or	or	CC
work_lfiiutwqordgpkqpj7skhel7uq	178	19	exclude	exclude	VB
work_lfiiutwqordgpkqpj7skhel7uq	178	20	it	-PRON-	PRP
work_lfiiutwqordgpkqpj7skhel7uq	178	21	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	178	22	any	any	DT
work_lfiiutwqordgpkqpj7skhel7uq	178	23	value	value	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	24	of	of	IN
work_lfiiutwqordgpkqpj7skhel7uq	178	25	β	β	NNP
work_lfiiutwqordgpkqpj7skhel7uq	178	26	J	J	NNP
work_lfiiutwqordgpkqpj7skhel7uq	178	27	/	/	SYM
work_lfiiutwqordgpkqpj7skhel7uq	178	28	ψφ	ψφ	NNP
work_lfiiutwqordgpkqpj7skhel7uq	178	29	s	s	VBZ
work_lfiiutwqordgpkqpj7skhel7uq	178	30	larger	large	JJR
work_lfiiutwqordgpkqpj7skhel7uq	178	31	than	than	IN
work_lfiiutwqordgpkqpj7skhel7uq	178	32	approximately	approximately	RB
work_lfiiutwqordgpkqpj7skhel7uq	178	33	0.4	0.4	CD
work_lfiiutwqordgpkqpj7skhel7uq	178	34	rad	rad	NN
work_lfiiutwqordgpkqpj7skhel7uq	178	35	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	179	1	REFERENCES	reference	NNS
work_lfiiutwqordgpkqpj7skhel7uq	179	2	1	1	CD
work_lfiiutwqordgpkqpj7skhel7uq	179	3	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	180	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	180	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	180	5	10064	10064	CD
work_lfiiutwqordgpkqpj7skhel7uq	180	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	180	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	180	8	D.	D.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	9	Acosta	Acosta	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	10	et	et	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	11	al	al	NNP
work_lfiiutwqordgpkqpj7skhel7uq	180	12	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	181	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	181	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	181	3	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	181	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	181	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	181	6	Phys	Phys	NNP
work_lfiiutwqordgpkqpj7skhel7uq	181	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	182	1	Rev.	Rev.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	183	1	Lett	Lett	NNP
work_lfiiutwqordgpkqpj7skhel7uq	183	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	184	1	95	95	CD
work_lfiiutwqordgpkqpj7skhel7uq	184	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	184	3	031801	031801	CD
work_lfiiutwqordgpkqpj7skhel7uq	184	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	184	5	2005	2005	CD
work_lfiiutwqordgpkqpj7skhel7uq	184	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	184	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	185	1	2	2	LS
work_lfiiutwqordgpkqpj7skhel7uq	185	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	186	1	Heavy	Heavy	NNP
work_lfiiutwqordgpkqpj7skhel7uq	186	2	Flavor	Flavor	NNP
work_lfiiutwqordgpkqpj7skhel7uq	186	3	Averaging	Averaging	NNP
work_lfiiutwqordgpkqpj7skhel7uq	186	4	Group	Group	NNP
work_lfiiutwqordgpkqpj7skhel7uq	186	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	186	6	arXiv:[1010.1589(hep	arxiv:[1010.1589(hep	NN
work_lfiiutwqordgpkqpj7skhel7uq	186	7	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	186	8	ex	ex	NN
work_lfiiutwqordgpkqpj7skhel7uq	186	9	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	186	10	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	186	11	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	187	1	3	3	LS
work_lfiiutwqordgpkqpj7skhel7uq	187	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	188	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	188	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	188	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	188	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	188	5	10120	10120	CD
work_lfiiutwqordgpkqpj7skhel7uq	188	6	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	189	1	4	4	LS
work_lfiiutwqordgpkqpj7skhel7uq	189	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	190	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	190	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	190	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	190	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	190	5	10206	10206	CD
work_lfiiutwqordgpkqpj7skhel7uq	190	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	190	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	190	8	T.	t.	NN
work_lfiiutwqordgpkqpj7skhel7uq	190	9	Aal-	Aal-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	190	10	tonen	tonen	NN
work_lfiiutwqordgpkqpj7skhel7uq	190	11	et	et	FW
work_lfiiutwqordgpkqpj7skhel7uq	190	12	al	al	NNP
work_lfiiutwqordgpkqpj7skhel7uq	190	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	191	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	191	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	191	3	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	191	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	191	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	191	6	Phys	Phys	NNP
work_lfiiutwqordgpkqpj7skhel7uq	191	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	192	1	Rev.	Rev.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	193	1	Lett	Lett	NNP
work_lfiiutwqordgpkqpj7skhel7uq	193	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	194	1	100	100	CD
work_lfiiutwqordgpkqpj7skhel7uq	194	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	194	3	161802	161802	CD
work_lfiiutwqordgpkqpj7skhel7uq	194	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	194	5	2008	2008	CD
work_lfiiutwqordgpkqpj7skhel7uq	194	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	194	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	195	1	5	5	CD
work_lfiiutwqordgpkqpj7skhel7uq	195	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	196	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	196	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	196	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	196	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	196	5	9892	9892	CD
work_lfiiutwqordgpkqpj7skhel7uq	196	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	196	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	196	8	T.	t.	NN
work_lfiiutwqordgpkqpj7skhel7uq	196	9	Aal-	Aal-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	196	10	tonen	tonen	NN
work_lfiiutwqordgpkqpj7skhel7uq	196	11	et	et	FW
work_lfiiutwqordgpkqpj7skhel7uq	196	12	al	al	NNP
work_lfiiutwqordgpkqpj7skhel7uq	196	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	197	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	197	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	197	3	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	197	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	197	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	197	6	Phys	Phys	NNP
work_lfiiutwqordgpkqpj7skhel7uq	197	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	198	1	Rev.	Rev.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	199	1	Lett	Lett	NNP
work_lfiiutwqordgpkqpj7skhel7uq	199	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	200	1	100	100	CD
work_lfiiutwqordgpkqpj7skhel7uq	200	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	200	3	101802	101802	CD
work_lfiiutwqordgpkqpj7skhel7uq	200	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	200	5	2008	2008	CD
work_lfiiutwqordgpkqpj7skhel7uq	200	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	200	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	201	1	6	6	CD
work_lfiiutwqordgpkqpj7skhel7uq	201	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	202	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	202	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	202	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	202	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	202	5	10047	10047	CD
work_lfiiutwqordgpkqpj7skhel7uq	202	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	202	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	202	8	T.	t.	NN
work_lfiiutwqordgpkqpj7skhel7uq	202	9	Aal-	Aal-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	202	10	tonen	tonen	NN
work_lfiiutwqordgpkqpj7skhel7uq	202	11	et	et	FW
work_lfiiutwqordgpkqpj7skhel7uq	202	12	al	al	NNP
work_lfiiutwqordgpkqpj7skhel7uq	202	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	203	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	203	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	203	3	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	203	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	203	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	203	6	Phys	Phys	NNP
work_lfiiutwqordgpkqpj7skhel7uq	203	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	204	1	Rev.	Rev.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	205	1	D79	D79	NNP
work_lfiiutwqordgpkqpj7skhel7uq	205	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	205	3	011104(R	011104(R	NNP
work_lfiiutwqordgpkqpj7skhel7uq	205	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	205	5	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	205	6	2009	2009	CD
work_lfiiutwqordgpkqpj7skhel7uq	205	7	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	205	8	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	206	1	7	7	LS
work_lfiiutwqordgpkqpj7skhel7uq	206	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	207	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	207	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	207	5	10108	10108	CD
work_lfiiutwqordgpkqpj7skhel7uq	207	6	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	207	7	and	and	CC
work_lfiiutwqordgpkqpj7skhel7uq	207	8	A.	A.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	9	Abu-	Abu-	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	10	lencia	lencia	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	11	et	et	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	12	al	al	NNP
work_lfiiutwqordgpkqpj7skhel7uq	207	13	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	208	1	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	208	2	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	208	3	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	208	4	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	208	5	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	208	6	Phys	Phys	NNP
work_lfiiutwqordgpkqpj7skhel7uq	208	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	209	1	Rev.	Rev.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	210	1	Lett	Lett	NNP
work_lfiiutwqordgpkqpj7skhel7uq	210	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	211	1	97	97	CD
work_lfiiutwqordgpkqpj7skhel7uq	211	2	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	211	3	242003	242003	CD
work_lfiiutwqordgpkqpj7skhel7uq	211	4	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	211	5	2006	2006	CD
work_lfiiutwqordgpkqpj7skhel7uq	211	6	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	211	7	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	212	1	8	8	LS
work_lfiiutwqordgpkqpj7skhel7uq	212	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	213	1	U.	U.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	213	2	Nierste	Nierste	NNP
work_lfiiutwqordgpkqpj7skhel7uq	213	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	213	4	talk	talk	NN
work_lfiiutwqordgpkqpj7skhel7uq	213	5	at	at	IN
work_lfiiutwqordgpkqpj7skhel7uq	213	6	CKM	CKM	NNP
work_lfiiutwqordgpkqpj7skhel7uq	213	7	Workshop	Workshop	NNP
work_lfiiutwqordgpkqpj7skhel7uq	213	8	2010	2010	CD
work_lfiiutwqordgpkqpj7skhel7uq	213	9	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	214	1	9	9	CD
work_lfiiutwqordgpkqpj7skhel7uq	214	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	215	1	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	215	2	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	215	3	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	215	4	Note	note	NN
work_lfiiutwqordgpkqpj7skhel7uq	215	5	8950	8950	CD
work_lfiiutwqordgpkqpj7skhel7uq	215	6	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	216	1	10	10	CD
work_lfiiutwqordgpkqpj7skhel7uq	216	2	.	.	.
work_lfiiutwqordgpkqpj7skhel7uq	217	1	D.	D.	NNP
work_lfiiutwqordgpkqpj7skhel7uq	217	2	Tonelli	Tonelli	NNP
work_lfiiutwqordgpkqpj7skhel7uq	217	3	(	(	-LRB-
work_lfiiutwqordgpkqpj7skhel7uq	217	4	for	for	IN
work_lfiiutwqordgpkqpj7skhel7uq	217	5	the	the	DT
work_lfiiutwqordgpkqpj7skhel7uq	217	6	CDF	CDF	NNP
work_lfiiutwqordgpkqpj7skhel7uq	217	7	Collaboration	Collaboration	NNP
work_lfiiutwqordgpkqpj7skhel7uq	217	8	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	217	9	,	,	,
work_lfiiutwqordgpkqpj7skhel7uq	217	10	arXiv:[0810.3229(hep	arXiv:[0810.3229(hep	:
work_lfiiutwqordgpkqpj7skhel7uq	217	11	-	-	HYPH
work_lfiiutwqordgpkqpj7skhel7uq	217	12	ex	ex	NN
work_lfiiutwqordgpkqpj7skhel7uq	217	13	)	)	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	217	14	]	]	-RRB-
work_lfiiutwqordgpkqpj7skhel7uq	217	15	.	.	.