id	sid	tid	token	lemma	pos
work_icxav2q5tjbe7kce734r5lp4wi	1	1	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	2	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	3	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	4	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	5	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	6	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	8	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	9	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	10	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	1	11	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	12	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	13	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	1	14	13	13	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	15	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	1	16	Portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	1	17	Gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	18	Analyzer	Analyzer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	19	Based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	1	20	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	21	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	1	22	Spectrum	Spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	23	Xu	Xu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	24	Shuping	Shuping	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	25	School	School	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	26	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	27	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	28	Science	Science	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	29	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	30	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	31	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	32	Technological	Technological	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	33	University	University	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	34	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	35	710021	710021	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	36	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	1	37	China	China	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	38	e	e	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	39	-	-	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	40	mail	mail	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	41	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	1	42	563937848@qq.com	563937848@qq.com	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	43	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	1	44	xusp686@163.com	xusp686@163.com	ADD
work_icxav2q5tjbe7kce734r5lp4wi	1	45	Xu	Xu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	46	pei	pei	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	47	School	School	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	48	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	49	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	50	Science	Science	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	51	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	52	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	53	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	54	Technological	Technological	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	55	University	University	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	56	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	57	710021	710021	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	58	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	1	59	China	China	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	60	Dong	Dong	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	61	Qiyu	Qiyu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	62	School	School	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	63	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	64	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	65	Science	Science	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	66	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	67	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	68	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	69	Technological	Technological	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	70	University	University	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	71	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	72	710021	710021	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	73	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	1	74	China	China	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	75	Su	Su	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	76	Xiaohui	Xiaohui	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	77	School	School	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	78	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	79	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	80	Science	Science	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	81	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	82	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	83	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	84	Technological	Technological	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	85	University	University	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	86	Xi’an	Xi’an	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	87	710021	710021	CD
work_icxav2q5tjbe7kce734r5lp4wi	1	88	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	1	89	China	China	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	90	Abstract	Abstract	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	91	—	—	:
work_icxav2q5tjbe7kce734r5lp4wi	1	92	It	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	1	93	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	1	94	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	1	95	problem	problem	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	96	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	97	spectra	spectra	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	98	analysis	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	99	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	100	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	1	101	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	102	that	that	WDT
work_icxav2q5tjbe7kce734r5lp4wi	1	103	how	how	WRB
work_icxav2q5tjbe7kce734r5lp4wi	1	104	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	1	105	separate	separate	VB
work_icxav2q5tjbe7kce734r5lp4wi	1	106	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	1	107	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	1	108	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	1	109	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	110	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	111	different	different	JJ
work_icxav2q5tjbe7kce734r5lp4wi	1	112	kinds	kind	NNS
work_icxav2q5tjbe7kce734r5lp4wi	1	113	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	114	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	115	from	from	IN
work_icxav2q5tjbe7kce734r5lp4wi	1	116	continuous	continuous	JJ
work_icxav2q5tjbe7kce734r5lp4wi	1	117	mixed	mixed	JJ
work_icxav2q5tjbe7kce734r5lp4wi	1	118	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	119	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	1	120	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	121	signal	signal	NNP
work_icxav2q5tjbe7kce734r5lp4wi	1	122	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	2	1	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	2	2	based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	2	3	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	2	4	experimental	experimental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	2	5	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	2	6	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	2	7	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	2	8	new	new	JJ
work_icxav2q5tjbe7kce734r5lp4wi	2	9	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	2	10	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	2	11	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	2	12	circular	circular	JJ
work_icxav2q5tjbe7kce734r5lp4wi	2	13	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	2	14	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	2	15	put	put	VBN
work_icxav2q5tjbe7kce734r5lp4wi	2	16	forward	forward	RP
work_icxav2q5tjbe7kce734r5lp4wi	2	17	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	2	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	2	19	basis	basis	NN
work_icxav2q5tjbe7kce734r5lp4wi	2	20	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	2	21	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	2	22	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	2	23	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	2	24	's	's	POS
work_icxav2q5tjbe7kce734r5lp4wi	2	25	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	2	26	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	3	1	This	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	3	2	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	3	3	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	3	4	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	3	5	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	3	6	superposition	superposition	NN
work_icxav2q5tjbe7kce734r5lp4wi	3	7	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	3	8	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	3	9	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	3	10	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	3	11	makes	make	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	3	12	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	3	13	nonlinear	nonlinear	NN
work_icxav2q5tjbe7kce734r5lp4wi	3	14	fitting	fitting	NN
work_icxav2q5tjbe7kce734r5lp4wi	3	15	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	4	1	It	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	4	2	takes	take	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	4	3	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	4	4	advantages	advantage	NNS
work_icxav2q5tjbe7kce734r5lp4wi	4	5	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	4	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	4	7	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	8	optimum	optimum	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	9	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	4	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	4	11	circular	circular	JJ
work_icxav2q5tjbe7kce734r5lp4wi	4	12	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	13	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	4	14	distinguishing	distinguish	VBG
work_icxav2q5tjbe7kce734r5lp4wi	4	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	4	16	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	17	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	4	19	different	different	JJ
work_icxav2q5tjbe7kce734r5lp4wi	4	20	composition	composition	NN
work_icxav2q5tjbe7kce734r5lp4wi	4	21	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	5	1	Experimental	experimental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	5	2	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	5	3	show	show	VBP
work_icxav2q5tjbe7kce734r5lp4wi	5	4	that	that	IN
work_icxav2q5tjbe7kce734r5lp4wi	5	5	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	5	6	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	5	7	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	8	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	5	9	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	5	10	once	once	RB
work_icxav2q5tjbe7kce734r5lp4wi	5	11	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	5	12	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	5	13	variety	variety	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	5	15	harmful	harmful	JJ
work_icxav2q5tjbe7kce734r5lp4wi	5	16	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	17	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	18	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	5	19	accuracy	accuracy	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	20	up	up	IN
work_icxav2q5tjbe7kce734r5lp4wi	5	21	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	5	22	±	±	$
work_icxav2q5tjbe7kce734r5lp4wi	5	23	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	5	24	%	%	NN
work_icxav2q5tjbe7kce734r5lp4wi	5	25	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	6	1	it	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	6	2	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	6	3	strong	strong	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	4	anti	anti	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	5	-	-	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	6	jamming	jamming	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	7	capability	capability	NN
work_icxav2q5tjbe7kce734r5lp4wi	6	8	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	6	9	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	6	10	suitable	suitable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	11	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	6	12	practical	practical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	6	13	application	application	NN
work_icxav2q5tjbe7kce734r5lp4wi	6	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	6	15	engineering	engineering	NN
work_icxav2q5tjbe7kce734r5lp4wi	6	16	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	7	1	Keywords	Keywords	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	2	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	7	3	Circular	Circular	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	4	Iteration	Iteration	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	5	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	7	6	Ultraviolet	Ultraviolet	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	7	Spectrum	Spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	8	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	7	9	Micro	Micro	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	10	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	7	11	spectrometer	spectrometer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	12	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	7	13	Embedded	Embedded	NNP
work_icxav2q5tjbe7kce734r5lp4wi	7	14	Systems	Systems	NNPS
work_icxav2q5tjbe7kce734r5lp4wi	7	15	I.	i.	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	1	INTRODUCTION	introduction	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	2	With	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	3	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	4	rapid	rapid	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	5	development	development	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	7	economic	economic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	8	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	8	9	people	people	NNS
work_icxav2q5tjbe7kce734r5lp4wi	8	10	living	live	VBG
work_icxav2q5tjbe7kce734r5lp4wi	8	11	standard	standard	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	12	unceasing	unceasing	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	13	improvement	improvement	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	14	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	15	popularity	popularity	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	16	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	18	development	development	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	19	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	20	heavy	heavy	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	21	industry	industry	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	22	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	8	23	transportation	transportation	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	8	25	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	26	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	27	large	large	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	28	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	29	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	30	harmful	harmful	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	31	substances	substance	NNS
work_icxav2q5tjbe7kce734r5lp4wi	8	32	into	into	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	33	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	34	environment	environment	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	35	atmosphere	atmosphere	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	36	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	8	37	changed	change	VBD
work_icxav2q5tjbe7kce734r5lp4wi	8	38	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	8	39	composition	composition	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	40	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	8	41	normal	normal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	8	42	air	air	NN
work_icxav2q5tjbe7kce734r5lp4wi	8	43	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	8	44	worsen	worsen	NNP
work_icxav2q5tjbe7kce734r5lp4wi	8	45	air	air	NNP
work_icxav2q5tjbe7kce734r5lp4wi	8	46	quality[1	quality[1	NNP
work_icxav2q5tjbe7kce734r5lp4wi	8	47	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	8	48	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	9	1	Health	health	NN
work_icxav2q5tjbe7kce734r5lp4wi	9	2	problems	problem	NNS
work_icxav2q5tjbe7kce734r5lp4wi	9	3	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	9	4	which	which	WDT
work_icxav2q5tjbe7kce734r5lp4wi	9	5	caused	cause	VBN
work_icxav2q5tjbe7kce734r5lp4wi	9	6	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	9	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	9	8	atmospheric	atmospheric	JJ
work_icxav2q5tjbe7kce734r5lp4wi	9	9	pollution	pollution	NN
work_icxav2q5tjbe7kce734r5lp4wi	9	10	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	9	11	caused	cause	VBN
work_icxav2q5tjbe7kce734r5lp4wi	9	12	governments	government	NNS
work_icxav2q5tjbe7kce734r5lp4wi	9	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	9	14	people	people	NNS
work_icxav2q5tjbe7kce734r5lp4wi	9	15	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	9	16	great	great	JJ
work_icxav2q5tjbe7kce734r5lp4wi	9	17	importance	importance	NN
work_icxav2q5tjbe7kce734r5lp4wi	9	18	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	9	19	it	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	9	20	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	10	1	Therefore	therefore	RB
work_icxav2q5tjbe7kce734r5lp4wi	10	2	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	10	3	monitoring	monitor	VBG
work_icxav2q5tjbe7kce734r5lp4wi	10	4	SO2	SO2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	10	5	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	10	6	NOx	NOx	NNP
work_icxav2q5tjbe7kce734r5lp4wi	10	7	become	become	VBP
work_icxav2q5tjbe7kce734r5lp4wi	10	8	one	one	CD
work_icxav2q5tjbe7kce734r5lp4wi	10	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	10	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	10	11	important	important	JJ
work_icxav2q5tjbe7kce734r5lp4wi	10	12	subject	subject	NN
work_icxav2q5tjbe7kce734r5lp4wi	10	13	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	10	14	environmental	environmental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	10	15	protection[2	protection[2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	10	16	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	10	17	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	11	1	For	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	11	3	accurate	accurate	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	4	monitoring	monitoring	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	5	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	11	7	real	real	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	8	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	11	9	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	10	quality	quality	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	11	12	ecological	ecological	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	13	environment	environment	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	14	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	11	15	pollution	pollution	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	16	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	11	18	environment	environment	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	19	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	11	20	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	11	21	provide	provide	VB
work_icxav2q5tjbe7kce734r5lp4wi	11	22	accurate	accurate	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	23	basis	basis	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	24	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	25	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	11	26	environmental	environmental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	27	protection	protection	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	28	departments	department	NNS
work_icxav2q5tjbe7kce734r5lp4wi	11	29	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	30	various	various	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	31	levels	level	NNS
work_icxav2q5tjbe7kce734r5lp4wi	11	32	supervision	supervision	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	33	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	11	34	management	management	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	35	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	11	36	environment	environment	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	37	decision	decision	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	38	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	11	39	urgent	urgent	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	40	need	need	VBP
work_icxav2q5tjbe7kce734r5lp4wi	11	41	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	11	42	large	large	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	43	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	44	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	11	45	modern	modern	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	46	environmental	environmental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	11	47	monitoring	monitoring	NN
work_icxav2q5tjbe7kce734r5lp4wi	11	48	instruments	instrument	NNS
work_icxav2q5tjbe7kce734r5lp4wi	11	49	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	12	1	Through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	2	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	3	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	12	4	present	present	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	5	situation	situation	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	7	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	9	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	10	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	11	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	12	12	domestic	domestic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	12	14	foreign	foreign	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	15	research	research	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	12	17	analysis	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	18	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	12	19	portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	20	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	21	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	22	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	23	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	12	24	domestic	domestic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	25	market	market	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	26	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	12	27	present	present	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	28	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	12	29	main	main	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	30	monitoring	monitoring	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	31	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	32	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	12	33	electrochemical	electrochemical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	12	34	analysis	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	35	instrument	instrument	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	36	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	12	37	infrared	infrare	VBD
work_icxav2q5tjbe7kce734r5lp4wi	12	38	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	39	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	40	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	12	41	differential	differential	NNP
work_icxav2q5tjbe7kce734r5lp4wi	12	42	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	43	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	12	44	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	13	1	Electrochemical	electrochemical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	13	2	analysis	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	3	instrument	instrument	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	4	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	13	5	sensor	sensor	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	6	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	13	7	only	only	RB
work_icxav2q5tjbe7kce734r5lp4wi	13	8	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	13	9	measured	measure	VBN
work_icxav2q5tjbe7kce734r5lp4wi	13	10	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	13	11	chemical	chemical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	13	12	composition	composition	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	13	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	13	14	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	13	15	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	13	17	if	if	IN
work_icxav2q5tjbe7kce734r5lp4wi	13	18	need	need	NN
work_icxav2q5tjbe7kce734r5lp4wi	13	19	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	13	20	measure	measure	VB
work_icxav2q5tjbe7kce734r5lp4wi	13	21	six	six	CD
work_icxav2q5tjbe7kce734r5lp4wi	13	22	ingredients	ingredient	NNS
work_icxav2q5tjbe7kce734r5lp4wi	13	23	you	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	13	24	need	need	VBP
work_icxav2q5tjbe7kce734r5lp4wi	13	25	six	six	CD
work_icxav2q5tjbe7kce734r5lp4wi	13	26	sensors	sensor	NNS
work_icxav2q5tjbe7kce734r5lp4wi	13	27	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	14	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	14	2	chemical	chemical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	14	3	battery	battery	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	4	principle	principle	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	5	led	lead	VBD
work_icxav2q5tjbe7kce734r5lp4wi	14	6	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	14	7	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	14	8	drift	drift	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	9	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	14	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	14	11	development	development	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	12	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	14	13	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	14	14	system	system	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	15	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	14	16	cross	cross	VB
work_icxav2q5tjbe7kce734r5lp4wi	14	17	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	18	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	14	19	sensor	sensor	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	20	lifetime	lifetime	NN
work_icxav2q5tjbe7kce734r5lp4wi	14	21	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	14	22	also	also	RB
work_icxav2q5tjbe7kce734r5lp4wi	14	23	difficult	difficult	JJ
work_icxav2q5tjbe7kce734r5lp4wi	14	24	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	14	25	solve	solve	VB
work_icxav2q5tjbe7kce734r5lp4wi	14	26	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	14	27	problem[3	problem[3	NNS
work_icxav2q5tjbe7kce734r5lp4wi	14	28	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	14	29	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	15	1	There	there	EX
work_icxav2q5tjbe7kce734r5lp4wi	15	2	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	15	3	no	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	15	4	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	15	5	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	15	6	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	15	7	NO2	NO2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	15	8	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	15	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	15	10	infrared	infrared	JJ
work_icxav2q5tjbe7kce734r5lp4wi	15	11	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	15	12	analyzer	analyzer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	15	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	15	14	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	15	15	not	not	RB
work_icxav2q5tjbe7kce734r5lp4wi	15	16	monitor	monitor	VB
work_icxav2q5tjbe7kce734r5lp4wi	15	17	NO2	NO2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	15	18	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	15	19	but	but	CC
work_icxav2q5tjbe7kce734r5lp4wi	15	20	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	15	21	only	only	RB
work_icxav2q5tjbe7kce734r5lp4wi	15	22	detect	detect	VB
work_icxav2q5tjbe7kce734r5lp4wi	15	23	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	15	24	NO	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	15	25	content	content	NN
work_icxav2q5tjbe7kce734r5lp4wi	15	26	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	15	27	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	15	28	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	15	29	assumptions	assumption	NNS
work_icxav2q5tjbe7kce734r5lp4wi	15	30	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	15	31	NO2	NO2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	15	32	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	15	33	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	16	1	At	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	16	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	16	3	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	16	4	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	5	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	16	6	infrared	infrare	VBN
work_icxav2q5tjbe7kce734r5lp4wi	16	7	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	16	8	analyzer	analyzer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	16	9	adopts	adopt	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	16	10	wheel	wheel	NNP
work_icxav2q5tjbe7kce734r5lp4wi	16	11	filter	filter	NNP
work_icxav2q5tjbe7kce734r5lp4wi	16	12	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	16	14	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	16	15	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	16	only	only	RB
work_icxav2q5tjbe7kce734r5lp4wi	16	17	one	one	CD
work_icxav2q5tjbe7kce734r5lp4wi	16	18	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	19	measurement	measurement	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	20	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	16	21	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	16	22	not	not	RB
work_icxav2q5tjbe7kce734r5lp4wi	16	23	measure	measure	VB
work_icxav2q5tjbe7kce734r5lp4wi	16	24	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	16	25	variety	variety	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	26	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	16	27	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	16	28	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	16	29	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	16	30	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	16	31	time[4	time[4	NN
work_icxav2q5tjbe7kce734r5lp4wi	16	32	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	16	33	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	17	1	Differential	differential	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	2	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	3	measured	measure	VBN
work_icxav2q5tjbe7kce734r5lp4wi	17	4	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	5	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	6	uv	uv	PRP
work_icxav2q5tjbe7kce734r5lp4wi	17	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	17	8	visible	visible	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	9	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	10	waves	wave	NNS
work_icxav2q5tjbe7kce734r5lp4wi	17	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	17	12	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	13	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	14	basis	basis	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	15	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	16	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	17	differential	differential	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	18	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	19	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	20	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	21	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	22	strength	strength	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	23	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	24	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	25	differential	differential	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	26	mailto:xusp686@163.com	mailto:xusp686@163.com	ADD
work_icxav2q5tjbe7kce734r5lp4wi	17	27	mailto:xusp686@163.com	mailto:xusp686@163.com	CD
work_icxav2q5tjbe7kce734r5lp4wi	17	28	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	17	29	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	30	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	31	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	32	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	33	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	34	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	17	35	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	36	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	37	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	17	38	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	39	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	17	40	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	17	41	14	14	CD
work_icxav2q5tjbe7kce734r5lp4wi	17	42	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	43	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	44	inversion	inversion	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	45	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	46	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	17	47	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	17	48	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	49	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	50	traditional	traditional	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	51	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	52	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	53	differential	differential	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	54	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	55	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	17	56	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	17	57	application	application	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	58	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	59	least	least	JJS
work_icxav2q5tjbe7kce734r5lp4wi	17	60	square	square	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	61	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	62	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	63	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	64	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	65	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	66	calculating	calculate	VBG
work_icxav2q5tjbe7kce734r5lp4wi	17	67	optimal	optimal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	68	estimation	estimation	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	69	equation	equation	NN
work_icxav2q5tjbe7kce734r5lp4wi	17	70	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	17	71	complex	complex	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	72	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	17	73	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	17	74	easy	easy	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	75	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	17	76	pathological	pathological	JJ
work_icxav2q5tjbe7kce734r5lp4wi	17	77	conditions[5	conditions[5	NNP
work_icxav2q5tjbe7kce734r5lp4wi	17	78	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	17	79	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	18	1	Accordingly	accordingly	RB
work_icxav2q5tjbe7kce734r5lp4wi	18	2	based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	18	3	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	18	4	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	18	5	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	18	6	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	18	8	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	18	10	dual	dual	JJ
work_icxav2q5tjbe7kce734r5lp4wi	18	11	stack	stack	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	18	13	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	18	14	mutually	mutually	RB
work_icxav2q5tjbe7kce734r5lp4wi	18	15	recursive	recursive	JJ
work_icxav2q5tjbe7kce734r5lp4wi	18	16	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	17	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	18	18	presented	present	VBN
work_icxav2q5tjbe7kce734r5lp4wi	18	19	more	more	JJR
work_icxav2q5tjbe7kce734r5lp4wi	18	20	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	21	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	22	decoding	decode	VBG
work_icxav2q5tjbe7kce734r5lp4wi	18	23	algorithm	algorithm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	18	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	18	25	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	18	26	process	process	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	27	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	18	28	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	18	29	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	30	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	18	31	presented	present	VBN
work_icxav2q5tjbe7kce734r5lp4wi	18	32	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	18	33	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	18	34	verify	verify	VB
work_icxav2q5tjbe7kce734r5lp4wi	18	35	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	18	36	effectiveness	effectiveness	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	37	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	18	38	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	18	39	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	18	40	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	19	1	This	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	19	2	system	system	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	3	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	19	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	19	5	Ocean	Ocean	NNP
work_icxav2q5tjbe7kce734r5lp4wi	19	6	Optic	Optic	NNP
work_icxav2q5tjbe7kce734r5lp4wi	19	7	micro	micro	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	8	spectrometer	spectrometer	VBP
work_icxav2q5tjbe7kce734r5lp4wi	19	9	combining	combine	VBG
work_icxav2q5tjbe7kce734r5lp4wi	19	10	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	19	11	embedded	embed	VBN
work_icxav2q5tjbe7kce734r5lp4wi	19	12	technology	technology	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	13	company	company	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	14	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	19	15	developed	develop	VBN
work_icxav2q5tjbe7kce734r5lp4wi	19	16	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	19	17	set	set	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	19	19	portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	19	20	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	19	21	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	22	analyzer[6	analyzer[6	NN
work_icxav2q5tjbe7kce734r5lp4wi	19	23	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	19	24	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	20	1	This	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	20	2	instrument	instrument	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	20	4	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	20	5	overcome	overcome	VB
work_icxav2q5tjbe7kce734r5lp4wi	20	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	20	7	disadvantages	disadvantage	NNS
work_icxav2q5tjbe7kce734r5lp4wi	20	8	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	20	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	20	10	electrochemical	electrochemical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	20	11	sensor	sensor	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	20	13	had	have	VBD
work_icxav2q5tjbe7kce734r5lp4wi	20	14	been	be	VBN
work_icxav2q5tjbe7kce734r5lp4wi	20	15	achieved	achieve	VBN
work_icxav2q5tjbe7kce734r5lp4wi	20	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	20	17	sensor	sensor	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	18	life	life	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	19	problems	problem	NNS
work_icxav2q5tjbe7kce734r5lp4wi	20	20	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	20	21	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	20	22	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	20	23	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	20	24	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	20	25	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	26	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	20	27	accurate	accurate	JJ
work_icxav2q5tjbe7kce734r5lp4wi	20	28	measurement	measurement	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	29	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	20	30	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	20	31	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	20	32	no	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	20	33	cross	cross	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	34	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	20	35	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	21	1	II	ii	CD
work_icxav2q5tjbe7kce734r5lp4wi	21	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	22	1	WORKING	work	VBG
work_icxav2q5tjbe7kce734r5lp4wi	22	2	PRINCIPLE	PRINCIPLE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	22	3	OF	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	22	4	THE	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	22	5	SYSTEM	system	RB
work_icxav2q5tjbe7kce734r5lp4wi	22	6	Portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	22	7	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	22	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	9	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	10	system	system	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	11	structure	structure	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	12	consists	consist	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	22	13	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	22	14	three	three	CD
work_icxav2q5tjbe7kce734r5lp4wi	22	15	parts	part	NNS
work_icxav2q5tjbe7kce734r5lp4wi	22	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	22	17	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	18	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	22	19	collection	collection	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	20	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	22	21	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	22	22	processing	processing	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	23	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	24	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	22	25	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	22	26	human	human	JJ
work_icxav2q5tjbe7kce734r5lp4wi	22	27	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	22	28	computer	computer	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	29	interaction	interaction	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	30	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	22	31	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	23	1	Data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	23	2	acquisition	acquisition	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	3	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	4	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	5	sampling	sampling	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	6	probe	probe	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	7	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	23	8	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	9	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	10	sampling	sampling	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	11	pump	pump	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	23	13	an	an	DT
work_icxav2q5tjbe7kce734r5lp4wi	23	14	ultraviolet	ultraviolet	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	15	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	23	17	miniature	miniature	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	18	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	19	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	20	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	23	21	collecting	collect	VBG
work_icxav2q5tjbe7kce734r5lp4wi	23	22	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	23	mainly	mainly	RB
work_icxav2q5tjbe7kce734r5lp4wi	23	24	accomplished	accomplish	VBN
work_icxav2q5tjbe7kce734r5lp4wi	23	25	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	26	ultraviolet	ultraviolet	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	27	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	28	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	23	29	miniature	miniature	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	30	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	23	31	analyzer	analyzer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	23	32	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	23	33	before	before	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	34	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	23	35	after	after	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	36	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	23	37	data	data	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	38	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	23	39	converted	convert	VBN
work_icxav2q5tjbe7kce734r5lp4wi	23	40	into	into	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	41	digital	digital	JJ
work_icxav2q5tjbe7kce734r5lp4wi	23	42	signal	signal	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	43	transmitted	transmit	VBN
work_icxav2q5tjbe7kce734r5lp4wi	23	44	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	23	45	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	23	46	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	23	47	processing	processing	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	48	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	23	49	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	24	1	Data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	24	2	processing	processing	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	3	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	5	ARM	ARM	NNP
work_icxav2q5tjbe7kce734r5lp4wi	24	6	microcontroller	microcontroller	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	7	CPU	cpu	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	8	core	core	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	9	module	module	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	10	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	24	11	peripheral	peripheral	JJ
work_icxav2q5tjbe7kce734r5lp4wi	24	12	circuit	circuit	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	24	14	main	main	JJ
work_icxav2q5tjbe7kce734r5lp4wi	24	15	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	24	16	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	17	electrical	electrical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	24	18	signals	signal	NNS
work_icxav2q5tjbe7kce734r5lp4wi	24	19	were	be	VBD
work_icxav2q5tjbe7kce734r5lp4wi	24	20	collected	collect	VBN
work_icxav2q5tjbe7kce734r5lp4wi	24	21	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	22	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	24	23	corresponding	correspond	VBG
work_icxav2q5tjbe7kce734r5lp4wi	24	24	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	25	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	24	26	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	24	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	24	28	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	29	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	30	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	31	all	all	DT
work_icxav2q5tjbe7kce734r5lp4wi	24	32	kinds	kind	NNS
work_icxav2q5tjbe7kce734r5lp4wi	24	33	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	34	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	35	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	24	36	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	24	37	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	24	38	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	39	composition	composition	NN
work_icxav2q5tjbe7kce734r5lp4wi	24	40	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	25	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	25	2	human	human	JJ
work_icxav2q5tjbe7kce734r5lp4wi	25	3	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	25	4	computer	computer	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	5	interaction	interaction	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	6	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	7	consists	consist	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	25	8	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	25	9	LCD	lcd	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	10	display	display	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	11	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	25	12	keyboard	keyboard	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	25	14	mainly	mainly	RB
work_icxav2q5tjbe7kce734r5lp4wi	25	15	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	25	16	complete	complete	VB
work_icxav2q5tjbe7kce734r5lp4wi	25	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	25	18	real	real	JJ
work_icxav2q5tjbe7kce734r5lp4wi	25	19	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	25	20	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	21	display	display	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	22	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	25	23	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	24	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	25	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	25	26	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	25	27	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	25	28	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	25	29	keyboard	keyboard	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	30	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	25	31	control	control	VB
work_icxav2q5tjbe7kce734r5lp4wi	25	32	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	25	33	storage	storage	NN
work_icxav2q5tjbe7kce734r5lp4wi	25	34	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	25	35	data	datum	NNS
work_icxav2q5tjbe7kce734r5lp4wi	25	36	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	25	37	related	relate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	25	38	parameters	parameter	NNS
work_icxav2q5tjbe7kce734r5lp4wi	25	39	Settings	Settings	NNP
work_icxav2q5tjbe7kce734r5lp4wi	25	40	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	26	1	III	iii	CD
work_icxav2q5tjbe7kce734r5lp4wi	26	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	27	1	THE	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	2	BASIC	BASIC	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	3	PRINCIPLE	PRINCIPLE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	4	OF	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	27	5	LOOP	LOOP	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	6	ITERATION	ITERATION	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	7	METHOD	METHOD	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	8	A.	A.	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	9	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	10	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	27	11	Beerlaw	Beerlaw	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	12	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	13	mathematical	mathematical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	27	14	model	model	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	15	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	27	16	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	17	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	27	18	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	19	's	's	POS
work_icxav2q5tjbe7kce734r5lp4wi	27	20	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	21	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	27	22	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	27	23	-	-	SYM
work_icxav2q5tjbe7kce734r5lp4wi	27	24	8	8	CD
work_icxav2q5tjbe7kce734r5lp4wi	27	25	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	27	26	said	say	VBD
work_icxav2q5tjbe7kce734r5lp4wi	27	27	＝	＝	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	28	In	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	27	29	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	30	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	31	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	27	32	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	33	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	27	34	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	35	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	27	36	T	T	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	37	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	27	38	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	39	transmittance	transmittance	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	40	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	27	41	project	project	VB
work_icxav2q5tjbe7kce734r5lp4wi	27	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	43	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	27	44	intensity	intensity	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	45	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	27	46	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	27	47	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	48	incident	incident	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	49	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	50	intensity;C	intensity;C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	27	51	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	27	52	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	53	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	27	54	absorbing	absorb	VBG
work_icxav2q5tjbe7kce734r5lp4wi	27	55	substance	substance	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	56	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	57	;	;	,
work_icxav2q5tjbe7kce734r5lp4wi	27	58	B	b	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	59	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	27	60	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	27	61	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	62	layer	layer	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	63	thickness	thickness	NN
work_icxav2q5tjbe7kce734r5lp4wi	27	64	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	28	1	Its	-PRON-	PRP$
work_icxav2q5tjbe7kce734r5lp4wi	28	2	physical	physical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	28	3	meaning	meaning	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	4	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	28	5	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	28	6	when	when	WRB
work_icxav2q5tjbe7kce734r5lp4wi	28	7	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	8	beam	beam	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	28	10	parallel	parallel	JJ
work_icxav2q5tjbe7kce734r5lp4wi	28	11	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	12	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	28	13	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	14	vertical	vertical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	28	15	uniform	uniform	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	16	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	17	material	material	JJ
work_icxav2q5tjbe7kce734r5lp4wi	28	18	suction	suction	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	19	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	20	scattering	scatter	VBG
work_icxav2q5tjbe7kce734r5lp4wi	28	21	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	28	22	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	23	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	24	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	28	25	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	26	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	27	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	28	28	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	29	material	material	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	30	suction	suction	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	31	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	32	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	28	33	directly	directly	RB
work_icxav2q5tjbe7kce734r5lp4wi	28	34	proportional	proportional	JJ
work_icxav2q5tjbe7kce734r5lp4wi	28	35	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	28	36	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	28	37	thickness	thickness	NN
work_icxav2q5tjbe7kce734r5lp4wi	28	38	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	29	1	Absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	2	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	29	3	16	16	CD
work_icxav2q5tjbe7kce734r5lp4wi	29	4	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	29	5	A	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	6	binary	binary	JJ
work_icxav2q5tjbe7kce734r5lp4wi	29	7	additive	additive	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	8	think	think	VBP
work_icxav2q5tjbe7kce734r5lp4wi	29	9	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	29	10	if	if	IN
work_icxav2q5tjbe7kce734r5lp4wi	29	11	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	12	binary	binary	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	29	14	multicomponent	multicomponent	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	15	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	16	components	component	NNS
work_icxav2q5tjbe7kce734r5lp4wi	29	17	have	have	VBP
work_icxav2q5tjbe7kce734r5lp4wi	29	18	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	29	19	A	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	20	wave	wave	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	21	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	22	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	29	23	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	24	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	29	25	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	26	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	29	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	28	wave	wave	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	29	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	30	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	29	31	equal	equal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	29	32	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	29	33	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	34	arithmetic	arithmetic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	29	35	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	29	36	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	29	37	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	29	38	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	29	39	all	all	DT
work_icxav2q5tjbe7kce734r5lp4wi	29	40	levels	level	NNS
work_icxav2q5tjbe7kce734r5lp4wi	29	41	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	30	1	B.	B.	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	2	Mathematical	mathematical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	31	3	model	model	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	4	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	5	logarithmic	logarithmic	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	7	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	8	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	31	9	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	10	's	's	POS
work_icxav2q5tjbe7kce734r5lp4wi	31	11	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	12	said	say	VBD
work_icxav2q5tjbe7kce734r5lp4wi	31	13	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	31	14	lg	lg	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	15	c	c	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	16	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	17	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	18	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	19	K	k	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	20	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	21	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	22			NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	23			NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	24			NN
work_icxav2q5tjbe7kce734r5lp4wi	31	25			CD
work_icxav2q5tjbe7kce734r5lp4wi	31	26			NNS
work_icxav2q5tjbe7kce734r5lp4wi	31	27			NNS
work_icxav2q5tjbe7kce734r5lp4wi	31	28			NNS
work_icxav2q5tjbe7kce734r5lp4wi	31	29			NNS
work_icxav2q5tjbe7kce734r5lp4wi	31	30			DT
work_icxav2q5tjbe7kce734r5lp4wi	31	31	In	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	32	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	33	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	34	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	31	35	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	36	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	37	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	38	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	39	R	R	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	40	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	41	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	42	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	43	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	44	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	31	45	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	46	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	47	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	48	S	S	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	49	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	50	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	51	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	52	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	53	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	54	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	55	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	56	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	57	λ	λ	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	58	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	59	selected	select	VBN
work_icxav2q5tjbe7kce734r5lp4wi	31	60	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	61	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	62	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	63	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	64	K	K	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	65	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	66	constant	constant	JJ
work_icxav2q5tjbe7kce734r5lp4wi	31	67	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	68	associated	associate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	31	69	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	70	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	71	length	length	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	72	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	73	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	74	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	31	75	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	76	tube	tube	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	77	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	78	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	79	C	C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	80	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	81	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	82	single	single	JJ
work_icxav2q5tjbe7kce734r5lp4wi	31	83	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	84	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	85	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	31	86	D	D	NNP
work_icxav2q5tjbe7kce734r5lp4wi	31	87	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	31	88	dark	dark	JJ
work_icxav2q5tjbe7kce734r5lp4wi	31	89	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	90	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	91	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	92	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	93	related	relate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	31	94	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	31	95	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	96	integration	integration	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	97	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	98	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	31	99	take	take	VB
work_icxav2q5tjbe7kce734r5lp4wi	31	100	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	31	101	fixed	fix	VBN
work_icxav2q5tjbe7kce734r5lp4wi	31	102	constant	constant	NN
work_icxav2q5tjbe7kce734r5lp4wi	31	103	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	31	104	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	32	1	Two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	2	kinds	kind	NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	32	4	mixed	mixed	JJ
work_icxav2q5tjbe7kce734r5lp4wi	32	5	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	6	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	7	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	32	8	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	9	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	10	expression	expression	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	11	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	32	12	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	32	13	represented	represent	VBN
work_icxav2q5tjbe7kce734r5lp4wi	32	14	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	32	15	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	32	16	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	17	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	18	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	19	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	20	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	21	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	22	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	23	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	24	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	25			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	26			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	27			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	28			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	29			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	30			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	31			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	32			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	33	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	34	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	35	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	36	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	37	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	38	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	39	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	40	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	41	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	42			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	43			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	44			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	45			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	46			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	47			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	48			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	49			``
work_icxav2q5tjbe7kce734r5lp4wi	32	50	According	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	32	51	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	32	52	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	32	53	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	54	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	32	55	superposition	superposition	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	56	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	32	57	binary	binary	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	58	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	32	59	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	60	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	61	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	62	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	63	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	64			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	65			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	66	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	67	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	68	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	69	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	32	70	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	71	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	72	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	73	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	74	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	75	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	76	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	77	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	78	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	79	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	80	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	81	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	82	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	83	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	32	84	D	D	NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	85			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	86			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	87			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	88			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	89			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	90			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	91			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	92			NNP
work_icxav2q5tjbe7kce734r5lp4wi	32	93			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	94			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	95			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	96			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	97			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	98			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	99			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	100			NN
work_icxav2q5tjbe7kce734r5lp4wi	32	101			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	102			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	103			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	104			NNS
work_icxav2q5tjbe7kce734r5lp4wi	32	105			CD
work_icxav2q5tjbe7kce734r5lp4wi	32	106	i.e.	i.e.	FW
work_icxav2q5tjbe7kce734r5lp4wi	33	1	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	2	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	3	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	4	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	5	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	6	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	33	8	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	9	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	10	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	33	11	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	12	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	13	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	33	14	15	15	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	15			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	16	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	17	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	18	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	19	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	20	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	21	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	22	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	23	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	24	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	25	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	26	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	27	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	28	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	29	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	30	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	31	D	D	NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	32			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	33			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	34			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	35			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	36			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	37			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	38			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	39			NNP
work_icxav2q5tjbe7kce734r5lp4wi	33	40			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	41			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	42			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	43			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	44			NNS
work_icxav2q5tjbe7kce734r5lp4wi	33	45			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	46			NNS
work_icxav2q5tjbe7kce734r5lp4wi	33	47			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	48			CD
work_icxav2q5tjbe7kce734r5lp4wi	33	49			NNS
work_icxav2q5tjbe7kce734r5lp4wi	33	50			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	51			VBP
work_icxav2q5tjbe7kce734r5lp4wi	33	52			NN
work_icxav2q5tjbe7kce734r5lp4wi	33	53	By	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	54	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	55	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	33	56	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	33	57	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	33	58	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	33	59	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	33	60	know	know	VB
work_icxav2q5tjbe7kce734r5lp4wi	33	61	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	62	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	63	particular	particular	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	64	incident	incident	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	65	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	66	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	67	lambda	lambda	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	68	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	33	69	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	70	mixed	mix	VBN
work_icxav2q5tjbe7kce734r5lp4wi	33	71	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	72	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	73	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	74	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	75	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	33	76	subtract	subtract	VB
work_icxav2q5tjbe7kce734r5lp4wi	33	77	its	-PRON-	PRP$
work_icxav2q5tjbe7kce734r5lp4wi	33	78	dark	dark	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	79	photons	photon	NNS
work_icxav2q5tjbe7kce734r5lp4wi	33	80	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	81	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	82	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	83	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	84	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	33	85	equal	equal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	86	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	87	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	88	selected	select	VBN
work_icxav2q5tjbe7kce734r5lp4wi	33	89	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	90	under	under	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	91	different	different	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	92	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	93	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	94	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	95	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	96	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	97	incident	incident	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	98	photons	photon	NNS
work_icxav2q5tjbe7kce734r5lp4wi	33	99	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	33	100	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	101	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	102	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	103	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	104	minus	minus	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	105	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	106	dark	dark	JJ
work_icxav2q5tjbe7kce734r5lp4wi	33	107	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	108	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	109	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	33	110	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	33	111	product	product	NN
work_icxav2q5tjbe7kce734r5lp4wi	33	112	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	34	1	In	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	34	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	34	3	actual	actual	JJ
work_icxav2q5tjbe7kce734r5lp4wi	34	4	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	5	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	6	model	model	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	7	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	34	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	9	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	10	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	34	11	scattering	scatter	VBG
work_icxav2q5tjbe7kce734r5lp4wi	34	12	all	all	DT
work_icxav2q5tjbe7kce734r5lp4wi	34	13	play	play	VB
work_icxav2q5tjbe7kce734r5lp4wi	34	14	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	34	15	role	role	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	16	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	34	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	34	18	formation	formation	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	19	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	34	20	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	21	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	34	22	so	so	CC
work_icxav2q5tjbe7kce734r5lp4wi	34	23	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	34	24	experiment	experiment	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	25	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	34	26	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	27	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	34	28	spectra	spectra	NNP
work_icxav2q5tjbe7kce734r5lp4wi	34	29	contain	contain	VBP
work_icxav2q5tjbe7kce734r5lp4wi	34	30	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	34	31	parts	part	NNS
work_icxav2q5tjbe7kce734r5lp4wi	34	32	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	35	1	Part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	2	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	35	3	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	4	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	35	5	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	35	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	35	7	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	8	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	35	9	photons	photon	NNS
work_icxav2q5tjbe7kce734r5lp4wi	35	10	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	35	11	ultraviolet	ultraviolet	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	12	band	band	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	13	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	35	14	mainly	mainly	RB
work_icxav2q5tjbe7kce734r5lp4wi	35	15	caused	cause	VBN
work_icxav2q5tjbe7kce734r5lp4wi	35	16	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	35	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	35	18	electron	electron	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	19	transition	transition	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	20	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	35	21	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	35	22	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	35	23	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	35	24	absorbed	absorb	VBD
work_icxav2q5tjbe7kce734r5lp4wi	35	25	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	36	1	Another	another	DT
work_icxav2q5tjbe7kce734r5lp4wi	36	2	part	part	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	36	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	36	5	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	6	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	36	7	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	8	or	or	CC
work_icxav2q5tjbe7kce734r5lp4wi	36	9	smoke	smoke	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	10	without	without	IN
work_icxav2q5tjbe7kce734r5lp4wi	36	11	selective	selective	JJ
work_icxav2q5tjbe7kce734r5lp4wi	36	12	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	13	caused	cause	VBN
work_icxav2q5tjbe7kce734r5lp4wi	36	14	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	36	15	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	36	16	attenuation	attenuation	NN
work_icxav2q5tjbe7kce734r5lp4wi	36	17	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	37	1	Because	because	IN
work_icxav2q5tjbe7kce734r5lp4wi	37	2	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	37	3	system	system	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	4	adopts	adopt	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	37	5	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	37	6	removable	removable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	37	7	detection	detection	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	8	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	9	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	37	10	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	11	extraction	extraction	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	37	13	you	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	37	14	first	first	RB
work_icxav2q5tjbe7kce734r5lp4wi	37	15	after	after	IN
work_icxav2q5tjbe7kce734r5lp4wi	37	16	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	37	17	pretreatment	pretreatment	JJ
work_icxav2q5tjbe7kce734r5lp4wi	37	18	device	device	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	19	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	37	20	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	37	21	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	22	filtration	filtration	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	23	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	37	24	drying	drying	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	25	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	37	26	cooling	cooling	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	27	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	37	28	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	37	29	processing	processing	NN
work_icxav2q5tjbe7kce734r5lp4wi	37	30	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	38	1	Filtration	filtration	NN
work_icxav2q5tjbe7kce734r5lp4wi	38	2	process	process	NN
work_icxav2q5tjbe7kce734r5lp4wi	38	3	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	38	4	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	38	5	0	0	CD
work_icxav2q5tjbe7kce734r5lp4wi	38	6	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	39	1	Lum	lum	VB
work_icxav2q5tjbe7kce734r5lp4wi	39	2	or	or	CC
work_icxav2q5tjbe7kce734r5lp4wi	39	3	above	above	JJ
work_icxav2q5tjbe7kce734r5lp4wi	39	4	level	level	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	5	particle	particle	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	6	filter	filter	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	7	out	out	RP
work_icxav2q5tjbe7kce734r5lp4wi	39	8	completely	completely	RB
work_icxav2q5tjbe7kce734r5lp4wi	39	9	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	39	10	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	39	11	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	39	12	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	13	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	39	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	39	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	39	16	diameter	diameter	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	17	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	39	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	39	19	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	20	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	39	21	magnitude	magnitude	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	22	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	39	23	below	below	IN
work_icxav2q5tjbe7kce734r5lp4wi	39	24	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	39	25	nm	nm	NN
work_icxav2q5tjbe7kce734r5lp4wi	39	26	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	40	1	Instrument	instrument	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	2	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	3	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	40	4	selected	select	VBN
work_icxav2q5tjbe7kce734r5lp4wi	40	5	work	work	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	6	between	between	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	40	8	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	10	190	190	CD
work_icxav2q5tjbe7kce734r5lp4wi	40	11	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	40	12	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	40	13	290	290	CD
work_icxav2q5tjbe7kce734r5lp4wi	40	14	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	40	15	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	40	16	greater	great	JJR
work_icxav2q5tjbe7kce734r5lp4wi	40	17	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	40	19	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	40	20	or	or	CC
work_icxav2q5tjbe7kce734r5lp4wi	40	21	residual	residual	JJ
work_icxav2q5tjbe7kce734r5lp4wi	40	22	particle	particle	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	23	diameter	diameter	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	40	25	so	so	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	26	that	that	IN
work_icxav2q5tjbe7kce734r5lp4wi	40	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	40	28	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	40	29	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	40	30	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	40	31	detected	detect	VBN
work_icxav2q5tjbe7kce734r5lp4wi	40	32	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	40	33	mainly	mainly	RB
work_icxav2q5tjbe7kce734r5lp4wi	40	34	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	35	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	40	36	Rayleigh	rayleigh	JJ
work_icxav2q5tjbe7kce734r5lp4wi	40	37	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	40	38	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	41	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	41	2	actual	actual	JJ
work_icxav2q5tjbe7kce734r5lp4wi	41	3	operation	operation	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	4	process	process	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	5	we	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	41	6	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	41	7	nitrogen	nitrogen	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	9	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	41	10	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	41	12	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	41	13	spectral	spectral	JJ
work_icxav2q5tjbe7kce734r5lp4wi	41	14	curve	curve	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	15	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	41	16	called	call	VBN
work_icxav2q5tjbe7kce734r5lp4wi	41	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	41	18	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	19	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	20	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	41	21	nitrogen	nitrogen	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	22	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	23	molecules	molecule	NNS
work_icxav2q5tjbe7kce734r5lp4wi	41	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	41	25	although	although	IN
work_icxav2q5tjbe7kce734r5lp4wi	41	26	about	about	RB
work_icxav2q5tjbe7kce734r5lp4wi	41	27	190	190	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	28	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	29	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	41	30	290	290	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	31	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	41	32	uv	uv	RB
work_icxav2q5tjbe7kce734r5lp4wi	41	33	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	34	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	41	35	but	but	CC
work_icxav2q5tjbe7kce734r5lp4wi	41	36	also	also	RB
work_icxav2q5tjbe7kce734r5lp4wi	41	37	produces	produce	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	41	38	Rayleigh	Rayleigh	NNP
work_icxav2q5tjbe7kce734r5lp4wi	41	39	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	41	40	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	42	1	That	that	DT
work_icxav2q5tjbe7kce734r5lp4wi	42	2	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	42	3	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	42	4	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	42	5	line	line	NN
work_icxav2q5tjbe7kce734r5lp4wi	42	6	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	42	7	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	42	8	after	after	IN
work_icxav2q5tjbe7kce734r5lp4wi	42	9	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	42	10	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	42	11	scattering	scatter	VBG
work_icxav2q5tjbe7kce734r5lp4wi	42	12	spectral	spectral	JJ
work_icxav2q5tjbe7kce734r5lp4wi	42	13	lines	line	NNS
work_icxav2q5tjbe7kce734r5lp4wi	42	14	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	43	1	By	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	2	spectrogram	spectrogram	NNP
work_icxav2q5tjbe7kce734r5lp4wi	43	3	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	43	4	found	find	VBD
work_icxav2q5tjbe7kce734r5lp4wi	43	5	that	that	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	6	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	43	8	absence	absence	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	10	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	11	bands	band	NNS
work_icxav2q5tjbe7kce734r5lp4wi	43	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	43	13	such	such	JJ
work_icxav2q5tjbe7kce734r5lp4wi	43	14	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	15	nitric	nitric	JJ
work_icxav2q5tjbe7kce734r5lp4wi	43	16	oxide	oxide	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	17	line	line	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	18	outside	outside	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	19	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	43	20	three	three	CD
work_icxav2q5tjbe7kce734r5lp4wi	43	21	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	22	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	23	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	43	24	coincidence	coincidence	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	25	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	26	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	43	27	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	28	lines	line	NNS
work_icxav2q5tjbe7kce734r5lp4wi	43	29	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	43	30	namely	namely	RB
work_icxav2q5tjbe7kce734r5lp4wi	43	31	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	32	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	43	33	absence	absence	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	34	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	35	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	36	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	37	bands	band	NNS
work_icxav2q5tjbe7kce734r5lp4wi	43	38	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	43	39	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	43	40	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	43	41	scattering	scatter	VBG
work_icxav2q5tjbe7kce734r5lp4wi	43	42	light	light	NN
work_icxav2q5tjbe7kce734r5lp4wi	43	43	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	43	44	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	43	45	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	43	46	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	44	1	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	44	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	44	3	Rayleigh	Rayleigh	NNP
work_icxav2q5tjbe7kce734r5lp4wi	44	4	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	5	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	44	6	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	7	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	8	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	9	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	44	10	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	44	11	ruled	rule	VBN
work_icxav2q5tjbe7kce734r5lp4wi	44	12	out	out	RP
work_icxav2q5tjbe7kce734r5lp4wi	44	13	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	44	14	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	44	15	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	16	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	44	17	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	44	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	44	19	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	44	20	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	21	line	line	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	22	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	44	23	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	44	24	reference	reference	NN
work_icxav2q5tjbe7kce734r5lp4wi	44	25	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	45	1	According	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	45	2	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	3	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	4	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	5	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	6	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	45	7	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	8	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	45	9	exclude	exclude	VB
work_icxav2q5tjbe7kce734r5lp4wi	45	10	mie	mie	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	11	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	12	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	45	13	Rayleigh	Rayleigh	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	14	scattering	scatter	VBG
work_icxav2q5tjbe7kce734r5lp4wi	45	15	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	16	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	17	detection	detection	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	18	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	45	19	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	45	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	21	device	device	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	22	applicable	applicable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	45	23	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	24	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	25	model	model	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	26	becomes	become	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	45	27	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	45	28	0	0	CD
work_icxav2q5tjbe7kce734r5lp4wi	45	29	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	30	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	31	ln	ln	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	32	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	33	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	34	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	35	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	36	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	37	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	38	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	39	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	40	i	i	PRP
work_icxav2q5tjbe7kce734r5lp4wi	45	41	i	i	PRP
work_icxav2q5tjbe7kce734r5lp4wi	45	42	I	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	45	43	L	l	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	44	C	C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	45	I	i	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	46			NN
work_icxav2q5tjbe7kce734r5lp4wi	45	47			CD
work_icxav2q5tjbe7kce734r5lp4wi	45	48			DT
work_icxav2q5tjbe7kce734r5lp4wi	45	49			IN
work_icxav2q5tjbe7kce734r5lp4wi	45	50			PRP$
work_icxav2q5tjbe7kce734r5lp4wi	45	51			NNS
work_icxav2q5tjbe7kce734r5lp4wi	45	52			NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	53			NN
work_icxav2q5tjbe7kce734r5lp4wi	45	54	Which	which	WDT
work_icxav2q5tjbe7kce734r5lp4wi	45	55	represents	represent	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	45	56	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	57	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	45	58	source	source	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	59	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	60	0	0	CD
work_icxav2q5tjbe7kce734r5lp4wi	45	61	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	62	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	63	I	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	45	64			VBP
work_icxav2q5tjbe7kce734r5lp4wi	45	65	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	45	66	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	67	scattering	scattering	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	68	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	69	spectrometer	spectrometer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	70	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	71	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	72			NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	73	after	after	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	74	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	75	received	received	JJ
work_icxav2q5tjbe7kce734r5lp4wi	45	76	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	45	77	intensity	intensity	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	78	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	45	79	i	i	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	80	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	81	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	45	82			NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	83	represents	represent	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	45	84	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	85	ith	ith	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	86	kind	kind	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	87	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	88	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	45	89	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	90	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	91			IN
work_icxav2q5tjbe7kce734r5lp4wi	45	92	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	93	cross	cross	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	94	section	section	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	95	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	45	96	L	l	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	97	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	45	98	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	99	length	length	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	100	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	101	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	102	pool	pool	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	103	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	104	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	105	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	45	106	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	45	107	iC	iC	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	108	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	45	109	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	110	ith	ith	NNP
work_icxav2q5tjbe7kce734r5lp4wi	45	111	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	112	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	113	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	45	114	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	45	115	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	45	116	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	46	1	Which	which	WDT
work_icxav2q5tjbe7kce734r5lp4wi	46	2	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	46	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	46	4	equal	equal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	46	5	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	46	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	46	7	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	46	8	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	46	9	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	46	10	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	46	11	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	46	12	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	46	13	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	46	14	degree	degree	NN
work_icxav2q5tjbe7kce734r5lp4wi	46	15	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	47	1	IV	IV	NNP
work_icxav2q5tjbe7kce734r5lp4wi	47	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	48	1	CIRCULAR	CIRCULAR	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	2	ITERATION	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	3	STEPS	STEPS	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	4	Circular	Circular	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	5	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	6	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	7	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	48	8	various	various	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	9	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	48	10	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	11	190	190	CD
work_icxav2q5tjbe7kce734r5lp4wi	48	12	~	~	CD
work_icxav2q5tjbe7kce734r5lp4wi	48	13	290	290	CD
work_icxav2q5tjbe7kce734r5lp4wi	48	14	nm	nm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	15	band	band	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	16	characteristic	characteristic	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	17	absorption	absorption	NNP
work_icxav2q5tjbe7kce734r5lp4wi	48	18	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	19	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	20	combined	combine	VBN
work_icxav2q5tjbe7kce734r5lp4wi	48	21	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	22	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	23	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	24	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	25	dual	dual	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	26	stack	stack	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	27	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	28	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	29	feature	feature	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	30	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	31	some	some	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	32	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	33	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	34	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	35	assuming	assume	VBG
work_icxav2q5tjbe7kce734r5lp4wi	48	36	that	that	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	37	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	38	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	39	no	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	40	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	41	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	42	launched	launch	VBD
work_icxav2q5tjbe7kce734r5lp4wi	48	43	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	44	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	45	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	46	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	47	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	48	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	49	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	50	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	48	51	switch	switch	VB
work_icxav2q5tjbe7kce734r5lp4wi	48	52	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	53	another	another	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	54	characteristic	characteristic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	55	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	56	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	57	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	58	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	59	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	60	absorbed	absorb	VBD
work_icxav2q5tjbe7kce734r5lp4wi	48	61	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	62	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	63	from	from	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	64	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	65	measured	measure	VBN
work_icxav2q5tjbe7kce734r5lp4wi	48	66	total	total	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	67	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	48	68	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	69	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	70	subtracting	subtracting	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	71	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	72	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	48	73	another	another	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	74	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	75	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	76	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	77	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	48	78	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	48	79	so	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	48	80	on	on	RB
work_icxav2q5tjbe7kce734r5lp4wi	48	81	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	48	82	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	48	83	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	84	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	48	85	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	86	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	48	87	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	48	88	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	48	89	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	49	1	Then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	49	2	return	return	VB
work_icxav2q5tjbe7kce734r5lp4wi	49	3	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	5	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	6	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	49	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	8	characteristics	characteristic	NNS
work_icxav2q5tjbe7kce734r5lp4wi	49	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	11	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	12	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	13	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	14	from	from	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	16	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	17	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	19	photons	photon	NNS
work_icxav2q5tjbe7kce734r5lp4wi	49	20	absorbed	absorb	VBD
work_icxav2q5tjbe7kce734r5lp4wi	49	21	minus	minus	CC
work_icxav2q5tjbe7kce734r5lp4wi	49	22	every	every	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	23	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	24	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	25	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	26	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	28	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	29	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	30	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	49	31	again	again	RB
work_icxav2q5tjbe7kce734r5lp4wi	49	32	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	49	33	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	49	34	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	35	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	36	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	37	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	38	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	39	an	an	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	40	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	41	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	49	42	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	49	43	so	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	49	44	on	on	RB
work_icxav2q5tjbe7kce734r5lp4wi	49	45	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	49	46	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	49	47	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	48	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	49	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	49	50	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	51	an	an	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	52	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	53	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	49	54	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	55	repeated	repeat	VBN
work_icxav2q5tjbe7kce734r5lp4wi	49	56	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	57	until	until	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	58	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	59	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	60	difference	difference	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	61	between	between	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	62	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	49	63	times	time	NNS
work_icxav2q5tjbe7kce734r5lp4wi	49	64	smaller	small	JJR
work_icxav2q5tjbe7kce734r5lp4wi	49	65	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	66	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	67	certain	certain	JJ
work_icxav2q5tjbe7kce734r5lp4wi	49	68	value	value	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	69	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	49	70	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	71	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	72	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	73	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	74	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	75	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	49	76	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	49	77	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	78	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	49	79	accurately	accurately	RB
work_icxav2q5tjbe7kce734r5lp4wi	49	80	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	50	1	Algorithm	Algorithm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	50	2	steps	step	NNS
work_icxav2q5tjbe7kce734r5lp4wi	50	3	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	50	4	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	50	5	follows	follow	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	50	6	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	51	1	First	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	2	step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	51	4	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	51	5	solve	solve	VB
work_icxav2q5tjbe7kce734r5lp4wi	51	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	7	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	9	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	11	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	12	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	13	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	14	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	15	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	16	10C	10c	CD
work_icxav2q5tjbe7kce734r5lp4wi	51	17	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	51	18	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	51	19	selects	select	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	51	20	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	21	characteristic	characteristic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	22	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	23	1	1	NNS
work_icxav2q5tjbe7kce734r5lp4wi	51	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	51	25	under	under	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	26	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	27	specific	specific	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	28	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	29	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	30	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	31	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	32	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	33	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	34	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	35	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	36	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	51	37	obvious	obvious	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	38	characteristic	characteristic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	39	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	40	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	41	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	51	42	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	51	43	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	44	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	45	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	46	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	47	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	51	48	small	small	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	49	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	50	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	51	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	52	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	51	53	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	51	54	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	51	55	read	read	VB
work_icxav2q5tjbe7kce734r5lp4wi	51	56	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	57	value	value	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	58	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	59	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	60	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	51	61	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	62	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	63	1S	1s	CD
work_icxav2q5tjbe7kce734r5lp4wi	51	64	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	51	65	solve	solve	VB
work_icxav2q5tjbe7kce734r5lp4wi	51	66	R	r	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	67	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	68	S	s	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	69	D	d	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	70			NNP
work_icxav2q5tjbe7kce734r5lp4wi	51	71			NNP
work_icxav2q5tjbe7kce734r5lp4wi	51	72			NN
work_icxav2q5tjbe7kce734r5lp4wi	51	73			NN
work_icxav2q5tjbe7kce734r5lp4wi	51	74			NNS
work_icxav2q5tjbe7kce734r5lp4wi	51	75			NNS
work_icxav2q5tjbe7kce734r5lp4wi	51	76	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	51	77	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	51	78	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	79	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	80	look	look	VB
work_icxav2q5tjbe7kce734r5lp4wi	51	81	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	51	82	up	up	RP
work_icxav2q5tjbe7kce734r5lp4wi	51	83	table	table	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	84	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	51	85	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	86	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	87	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	88	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	89	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	90	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	91	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	92	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	93	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	94	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	95	mixed	mixed	JJ
work_icxav2q5tjbe7kce734r5lp4wi	51	96	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	97	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	51	98	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	51	99	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	51	100	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	52	1	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	2	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	52	4	solving	solve	VBG
work_icxav2q5tjbe7kce734r5lp4wi	52	5	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	6	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	7	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	8	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	10	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	11	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	12	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	13	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	14	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	15	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	52	16	select	select	VB
work_icxav2q5tjbe7kce734r5lp4wi	52	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	18	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	19	characteristic	characteristic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	20	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	21	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	22	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	23	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	24	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	25	2	2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	26	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	27	kind	kind	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	28	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	29	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	30	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	52	31	obvious	obvious	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	32	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	33	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	34	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	35	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	52	36	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	37	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	38	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	39	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	40	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	52	41	weak	weak	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	42	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	43	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	52	44	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	45	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	46	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	47	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	48	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	49	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	50	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	52	51	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	52	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	53	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	52	54	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	52	55	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	56	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	52	57	16	16	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	58	read	read	VBD
work_icxav2q5tjbe7kce734r5lp4wi	52	59	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	60	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	52	61	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	62	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	63	2S	2s	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	64	considered	consider	VBN
work_icxav2q5tjbe7kce734r5lp4wi	52	65	under	under	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	66	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	67	band	band	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	68	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	52	69	only	only	RB
work_icxav2q5tjbe7kce734r5lp4wi	52	70	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	71	kinds	kind	NNS
work_icxav2q5tjbe7kce734r5lp4wi	52	72	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	73	mixed	mix	VBN
work_icxav2q5tjbe7kce734r5lp4wi	52	74	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	75	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	76	according	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	52	77	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	78	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	79	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	52	80	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	81	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	52	82	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	52	83	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	52	84	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	85	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	86	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	87	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	88	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	89	look	look	VB
work_icxav2q5tjbe7kce734r5lp4wi	52	90	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	52	91	up	up	RP
work_icxav2q5tjbe7kce734r5lp4wi	52	92	table	table	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	93	against	against	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	94	solving	solve	VBG
work_icxav2q5tjbe7kce734r5lp4wi	52	95	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	96	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	97	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	98	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	99	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	100	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	52	101	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	52	102	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	103	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	52	104	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	105	kind	kind	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	106	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	107	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	52	108	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	109	20	20	CD
work_icxav2q5tjbe7kce734r5lp4wi	52	110	C	c	NN
work_icxav2q5tjbe7kce734r5lp4wi	52	111	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	52	112	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	52	113	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	53	1	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	2	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	53	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	53	4	calculating	calculate	VBG
work_icxav2q5tjbe7kce734r5lp4wi	53	5	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	6	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	7	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	53	8	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	10	mixed	mixed	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	11	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	53	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	53	13	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	14	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	15	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	16	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	53	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	18	mth	mth	NNP
work_icxav2q5tjbe7kce734r5lp4wi	53	19	characteristic	characteristic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	20	wavelengths	wavelength	NNS
work_icxav2q5tjbe7kce734r5lp4wi	53	21	selected	select	VBD
work_icxav2q5tjbe7kce734r5lp4wi	53	22	m	m	NNP
work_icxav2q5tjbe7kce734r5lp4wi	53	23	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	53	24	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	25	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	26	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	28	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	29	m	m	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	30	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	31	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	53	32	obvious	obvious	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	33	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	34	peak	peak	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	35	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	53	36	read	read	VB
work_icxav2q5tjbe7kce734r5lp4wi	53	37	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	38	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	39	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	40	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	41	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	43	photon	photon	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	44	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	45	mS	mS	NNP
work_icxav2q5tjbe7kce734r5lp4wi	53	46	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	47	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	48	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	53	49	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	53	50	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	53	51	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	53	52	look	look	VB
work_icxav2q5tjbe7kce734r5lp4wi	53	53	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	53	54	up	up	RP
work_icxav2q5tjbe7kce734r5lp4wi	53	55	table	table	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	56	type	type	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	57	inversion	inversion	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	58	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	59	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	60	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	61	kind	kind	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	62	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	63	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	64	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	65	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	66	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	67	initial	initial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	53	68	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	69	0mC	0mc	CD
work_icxav2q5tjbe7kce734r5lp4wi	53	70	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	53	71	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	53	72	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	53	73	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	54	1	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	2	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	54	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	54	4	iterative	iterative	JJ
work_icxav2q5tjbe7kce734r5lp4wi	54	5	inversion	inversion	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	6	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	54	7	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	54	8	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	54	9	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	54	10	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	11	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	12	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	13	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	54	14	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	15	recursive	recursive	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	16	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	54	17	will	will	MD
work_icxav2q5tjbe7kce734r5lp4wi	54	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	54	19	desires	desire	NNS
work_icxav2q5tjbe7kce734r5lp4wi	54	20	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	21	all	all	DT
work_icxav2q5tjbe7kce734r5lp4wi	54	22	kinds	kind	NNS
work_icxav2q5tjbe7kce734r5lp4wi	54	23	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	24	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	25	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	26	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	27	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	28	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	54	29	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	54	30	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	54	31	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	54	32	again	again	RB
work_icxav2q5tjbe7kce734r5lp4wi	54	33	read	read	VB
work_icxav2q5tjbe7kce734r5lp4wi	54	34	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	54	35			CD
work_icxav2q5tjbe7kce734r5lp4wi	54	36	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	37	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	54	38	S	S	NNP
work_icxav2q5tjbe7kce734r5lp4wi	54	39			NNP
work_icxav2q5tjbe7kce734r5lp4wi	54	40	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	54	41	reverse	reverse	VB
work_icxav2q5tjbe7kce734r5lp4wi	54	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	54	43	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	54	44	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	45	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	46	11C	11C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	54	47	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	54	48	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	54	49	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	50	recursive	recursive	NN
work_icxav2q5tjbe7kce734r5lp4wi	54	51	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	55	1	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	55	2	5	5	CD
work_icxav2q5tjbe7kce734r5lp4wi	55	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	55	4	repeat	repeat	VB
work_icxav2q5tjbe7kce734r5lp4wi	55	5	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	55	6	second	second	JJ
work_icxav2q5tjbe7kce734r5lp4wi	55	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	55	8	third	third	JJ
work_icxav2q5tjbe7kce734r5lp4wi	55	9	step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	55	10	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	55	11	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	55	12	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	55	13	m	m	CD
work_icxav2q5tjbe7kce734r5lp4wi	55	14	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	55	15	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	55	16	recursive	recursive	JJ
work_icxav2q5tjbe7kce734r5lp4wi	55	17	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	55	18	1mC	1mc	CD
work_icxav2q5tjbe7kce734r5lp4wi	55	19	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	56	1	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	2	6	6	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	3	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	56	4	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	5	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	6	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	7	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	8	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	10	adjacent	adjacent	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	11	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	12	iterative	iterative	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	13	error	error	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	14	;	;	:
work_icxav2q5tjbe7kce734r5lp4wi	56	15	Calculating	calculate	VBG
work_icxav2q5tjbe7kce734r5lp4wi	56	16	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	17	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	56	18	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	19	differential	differential	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	20	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	21	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	22	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	23	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	24	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	56	25	shown	show	VBN
work_icxav2q5tjbe7kce734r5lp4wi	56	26	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	27	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	28	following	follow	VBG
work_icxav2q5tjbe7kce734r5lp4wi	56	29	formula	formula	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	30	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	31	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	32	1om	1om	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	33	m	m	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	34	C	C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	35	C	C	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	36			NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	37			NNS
work_icxav2q5tjbe7kce734r5lp4wi	56	38			CD
work_icxav2q5tjbe7kce734r5lp4wi	56	39	Select	select	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	40	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	41	maximum	maximum	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	42	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	43	first	first	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	44	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	56	45	order	order	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	46	differential	differential	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	47	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	48	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	49	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	50	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	51	error	error	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	52	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	53	i.e	i.e	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	54	1	1	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	55	1max	1max	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	56	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	57	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	58	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	59	2,	2,	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	60	...	...	:
work_icxav2q5tjbe7kce734r5lp4wi	56	61	,m	,m	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	62	m	m	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	63	M	M	NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	64			ADD
work_icxav2q5tjbe7kce734r5lp4wi	56	65			NN
work_icxav2q5tjbe7kce734r5lp4wi	56	66			NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	67			NNP
work_icxav2q5tjbe7kce734r5lp4wi	56	68	Step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	69	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	56	70	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	56	71	repeat	repeat	VB
work_icxav2q5tjbe7kce734r5lp4wi	56	72	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	73	fourth	fourth	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	74	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	75	fifth	fifth	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	76	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	56	77	sixth	sixth	JJ
work_icxav2q5tjbe7kce734r5lp4wi	56	78	step	step	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	79	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	56	80	until	until	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	81	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	82	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	83	error	error	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	84	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	56	85	less	less	JJR
work_icxav2q5tjbe7kce734r5lp4wi	56	86	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	56	87	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	56	88	given	give	VBN
work_icxav2q5tjbe7kce734r5lp4wi	56	89	value	value	NN
work_icxav2q5tjbe7kce734r5lp4wi	56	90	namely	namely	RB
work_icxav2q5tjbe7kce734r5lp4wi	56	91	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	57	1	n	n	NNP
work_icxav2q5tjbe7kce734r5lp4wi	57	2	G	G	NNP
work_icxav2q5tjbe7kce734r5lp4wi	57	3			NN
work_icxav2q5tjbe7kce734r5lp4wi	57	4			NN
work_icxav2q5tjbe7kce734r5lp4wi	57	5			VBD
work_icxav2q5tjbe7kce734r5lp4wi	57	6			NNP
work_icxav2q5tjbe7kce734r5lp4wi	57	7	Step	Step	NNP
work_icxav2q5tjbe7kce734r5lp4wi	57	8	8	8	CD
work_icxav2q5tjbe7kce734r5lp4wi	57	9	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	57	10	termination	termination	NN
work_icxav2q5tjbe7kce734r5lp4wi	57	11	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	57	12	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	57	13	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	57	14	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	57	15	it	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	57	16	will	will	MD
work_icxav2q5tjbe7kce734r5lp4wi	57	17	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	57	18	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	57	19	last	last	JJ
work_icxav2q5tjbe7kce734r5lp4wi	57	20	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	57	21	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	57	22	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	57	23	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	57	24	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	57	25	final	final	JJ
work_icxav2q5tjbe7kce734r5lp4wi	57	26	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	57	27	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	57	28	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	57	29	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	58	1	V.	V.	NNP
work_icxav2q5tjbe7kce734r5lp4wi	58	2	THE	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	58	3	EXPERIMENTAL	EXPERIMENTAL	NNP
work_icxav2q5tjbe7kce734r5lp4wi	58	4	RESULTS	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	58	5	AND	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	58	6	ANALYSIS	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	7	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	58	8	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	58	9	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	10	experiments	experiment	NNS
work_icxav2q5tjbe7kce734r5lp4wi	58	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	58	12	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	58	14	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	15	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	58	16	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	58	17	NO	NO	NNP
work_icxav2q5tjbe7kce734r5lp4wi	58	18	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	58	19	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	20	NH	nh	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	21	four	four	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	22	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	23	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	24	lines	line	NNS
work_icxav2q5tjbe7kce734r5lp4wi	58	25	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	26	shown	show	VBN
work_icxav2q5tjbe7kce734r5lp4wi	58	27	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	28	figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	29	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	30	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	58	31	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	32	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	58	33	range	range	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	34	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	35	190	190	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	36	nm	nm	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	37	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	38	190	190	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	39	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	40	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	58	41	four	four	CD
work_icxav2q5tjbe7kce734r5lp4wi	58	42	types	type	NNS
work_icxav2q5tjbe7kce734r5lp4wi	58	43	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	44	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	58	45	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	58	46	interfered	interfere	VBN
work_icxav2q5tjbe7kce734r5lp4wi	58	47	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	58	48	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	58	49	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	58	50	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	59	1	At	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	59	2	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	59	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	59	4	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	59	5	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	59	6	273.33nnl	273.33nnl	CD
work_icxav2q5tjbe7kce734r5lp4wi	59	7	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	59	8	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	59	9	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	59	10	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	59	11	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	59	12	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	59	13	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	59	14	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	60	1	Also	also	RB
work_icxav2q5tjbe7kce734r5lp4wi	60	2	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	60	3	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	60	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	60	5	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	60	6	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	60	7	231.33	231.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	60	8	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	60	9	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	60	10	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	60	11	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	60	12	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	60	13	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	60	14	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	60	15	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	60	16	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	61	1	Only	only	RB
work_icxav2q5tjbe7kce734r5lp4wi	61	2	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	61	3	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	61	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	61	5	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	61	6	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	61	7	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	61	8	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	61	9	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	61	10	NO	no	UH
work_icxav2q5tjbe7kce734r5lp4wi	61	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	61	12	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	61	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	61	14	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	61	15	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	61	16	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	61	17	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	62	1	At	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	62	2	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	62	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	62	4	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	5	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	62	6	208.23	208.23	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	7	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	8	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	62	9	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	10	NH	NH	NNP
work_icxav2q5tjbe7kce734r5lp4wi	62	11	、	、	NNP
work_icxav2q5tjbe7kce734r5lp4wi	62	12	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	62	14	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	62	15	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	62	16	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	62	17	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	63	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	2	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	3	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	4	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	5	have	have	VBP
work_icxav2q5tjbe7kce734r5lp4wi	63	6	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	63	7	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	8	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	9	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	10	point	point	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	63	12	For	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	13	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	14	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	15	NO	no	UH
work_icxav2q5tjbe7kce734r5lp4wi	63	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	63	17	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	18	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	63	19	as	as	RB
work_icxav2q5tjbe7kce734r5lp4wi	63	20	long	long	RB
work_icxav2q5tjbe7kce734r5lp4wi	63	21	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	22	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	23	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	24	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	25	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	26	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	27	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	28	first	first	RB
work_icxav2q5tjbe7kce734r5lp4wi	63	29	came	come	VBD
work_icxav2q5tjbe7kce734r5lp4wi	63	30	out	out	RP
work_icxav2q5tjbe7kce734r5lp4wi	63	31	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	63	32	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	33	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	63	34	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	35	corresponding	corresponding	JJ
work_icxav2q5tjbe7kce734r5lp4wi	63	36	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	37	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	38	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	39	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	40	or	or	CC
work_icxav2q5tjbe7kce734r5lp4wi	63	41	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	63	42	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	43	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	44	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	45	minus	minus	IN
work_icxav2q5tjbe7kce734r5lp4wi	63	46	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	63	47	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	63	48	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	63	49	their	-PRON-	PRP$
work_icxav2q5tjbe7kce734r5lp4wi	63	50	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	63	51	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	64	1	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	64	2	should	should	MD
work_icxav2q5tjbe7kce734r5lp4wi	64	3	first	first	RB
work_icxav2q5tjbe7kce734r5lp4wi	64	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	64	5	all	all	DT
work_icxav2q5tjbe7kce734r5lp4wi	64	6	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	64	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	64	8	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	64	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	64	10	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	64	11	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	64	12	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	64	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	64	14	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	64	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	64	16	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	64	17	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	64	18	3NH	3NH	NNP
work_icxav2q5tjbe7kce734r5lp4wi	64	19	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	64	20	NO	no	UH
work_icxav2q5tjbe7kce734r5lp4wi	64	21	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	65	1	Figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	65	2	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	65	3	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	66	1	Mixed	mixed	JJ
work_icxav2q5tjbe7kce734r5lp4wi	66	2	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	66	3	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	66	4	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	66	5	A.	A.	NNP
work_icxav2q5tjbe7kce734r5lp4wi	67	1	Calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	67	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	67	3	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	67	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	67	5	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	67	6	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	67	7	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	67	8	For	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	67	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	67	10	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	67	11	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	67	12	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	67	13	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	67	14	NO	no	UH
work_icxav2q5tjbe7kce734r5lp4wi	67	15	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	67	16	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	67	17	premise	premise	NN
work_icxav2q5tjbe7kce734r5lp4wi	67	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	67	19	know	know	VB
work_icxav2q5tjbe7kce734r5lp4wi	67	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	67	21	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	67	22	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	67	23	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	67	24	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	67	25	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	67	26	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	68	1	However	however	RB
work_icxav2q5tjbe7kce734r5lp4wi	68	2	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	68	3	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	68	4	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	68	5	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	68	6	throughout	throughout	IN
work_icxav2q5tjbe7kce734r5lp4wi	68	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	68	8	working	work	VBG
work_icxav2q5tjbe7kce734r5lp4wi	68	9	wave	wave	NN
work_icxav2q5tjbe7kce734r5lp4wi	68	10	band	band	NN
work_icxav2q5tjbe7kce734r5lp4wi	68	11	are	be	VBP
work_icxav2q5tjbe7kce734r5lp4wi	68	12	interfered	interfere	VBN
work_icxav2q5tjbe7kce734r5lp4wi	68	13	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	68	14	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	68	15	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	68	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	68	17	need	need	VBP
work_icxav2q5tjbe7kce734r5lp4wi	68	18	an	an	DT
work_icxav2q5tjbe7kce734r5lp4wi	68	19	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	68	20	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	68	21	eliminate	eliminate	VB
work_icxav2q5tjbe7kce734r5lp4wi	68	22	their	-PRON-	PRP$
work_icxav2q5tjbe7kce734r5lp4wi	68	23	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	68	24	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	69	1	Here	here	RB
work_icxav2q5tjbe7kce734r5lp4wi	69	2	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	69	3	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	69	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	69	5	basis	basis	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	69	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	69	8	look	look	VB
work_icxav2q5tjbe7kce734r5lp4wi	69	9	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	69	10	up	up	RP
work_icxav2q5tjbe7kce734r5lp4wi	69	11	table	table	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	12	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	69	13	loop	loop	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	14	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	15	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	69	17	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	18	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	19	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	69	20	determine	determine	VB
work_icxav2q5tjbe7kce734r5lp4wi	69	21	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	69	22	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	69	23	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	69	24	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	69	25	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	69	26	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	69	27	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	69	28	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	70	1	Figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	70	2	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	70	3	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	71	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	2	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	3	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	5	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	6	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	71	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	71	8	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	9	No	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	10	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	11	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	12	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	13	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	14	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	15	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	71	17	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	18	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	19	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	71	20	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	21	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	22	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	71	23	17	17	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	24	As	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	25	shown	show	VBN
work_icxav2q5tjbe7kce734r5lp4wi	71	26	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	27	figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	28	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	29	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	71	30	At	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	31	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	32	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	33	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	34	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	35	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	71	36	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	37	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	38	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	39	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	40	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	71	41	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	42	No	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	43	were	be	VBD
work_icxav2q5tjbe7kce734r5lp4wi	71	44	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	71	45	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	71	46	they	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	71	47	differ	differ	VBP
work_icxav2q5tjbe7kce734r5lp4wi	71	48	greatly	greatly	RB
work_icxav2q5tjbe7kce734r5lp4wi	71	49	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	50	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	51	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	52	intensity	intensity	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	53	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	54	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	55	wavelengths	wavelength	NNS
work_icxav2q5tjbe7kce734r5lp4wi	71	56	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	71	57	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	58	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	59	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	60	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	61	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	62	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	63	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	64	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	65	273.33	273.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	66	nm	nm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	71	67	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	71	68	far	far	RB
work_icxav2q5tjbe7kce734r5lp4wi	71	69	less	less	JJR
work_icxav2q5tjbe7kce734r5lp4wi	71	70	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	71	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	72	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	71	73	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	74	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	75	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	76	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	77	231.33	231.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	78	nm	nm	UH
work_icxav2q5tjbe7kce734r5lp4wi	71	79	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	71	80	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	71	81	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	82	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	83	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	84	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	85	231.33	231.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	86	nm	nm	RB
work_icxav2q5tjbe7kce734r5lp4wi	71	87	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	71	88	far	far	RB
work_icxav2q5tjbe7kce734r5lp4wi	71	89	less	less	JJR
work_icxav2q5tjbe7kce734r5lp4wi	71	90	than	than	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	91	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	92	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	71	93	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	94	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	95	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	96	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	97	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	71	98	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	71	99	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	71	100	273.33	273.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	71	101	nm	nm	UH
work_icxav2q5tjbe7kce734r5lp4wi	71	102	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	72	1	Then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	72	2	we	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	72	3	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	72	4	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	72	5	absorbed	absorb	VBN
work_icxav2q5tjbe7kce734r5lp4wi	72	6	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	7	231.33	231.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	8	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	9	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	10	called	call	VBN
work_icxav2q5tjbe7kce734r5lp4wi	72	11	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	72	12	main	main	JJ
work_icxav2q5tjbe7kce734r5lp4wi	72	13	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	15	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	72	17	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	18	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	19	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	72	20	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	21	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	22	273.33	273.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	23	nm	nm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	72	24	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	72	25	called	call	VBN
work_icxav2q5tjbe7kce734r5lp4wi	72	26	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	27	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	28	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	72	29	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	30	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	31	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	72	32	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	33	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	34	273.33	273.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	35	nm	nm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	72	36	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	72	37	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	72	38	main	main	JJ
work_icxav2q5tjbe7kce734r5lp4wi	72	39	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	40	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	72	41	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	42	231.33	231.33	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	43	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	44	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	45	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	72	46	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	72	47	main	main	JJ
work_icxav2q5tjbe7kce734r5lp4wi	72	48	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	72	49	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	73	1	Iterative	iterative	JJ
work_icxav2q5tjbe7kce734r5lp4wi	73	2	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	73	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	73	4	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	73	5	circulation	circulation	NN
work_icxav2q5tjbe7kce734r5lp4wi	73	6	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	73	7	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	73	8	gradually	gradually	RB
work_icxav2q5tjbe7kce734r5lp4wi	73	9	eliminate	eliminate	VB
work_icxav2q5tjbe7kce734r5lp4wi	73	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	73	11	interference	interference	NN
work_icxav2q5tjbe7kce734r5lp4wi	73	12	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	73	13	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	73	14	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	73	15	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	73	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	73	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	73	18	true	true	JJ
work_icxav2q5tjbe7kce734r5lp4wi	73	19	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	73	20	approaching	approach	VBG
work_icxav2q5tjbe7kce734r5lp4wi	73	21	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	73	22	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	73	23	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	73	24	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	74	1	Cyclic	cyclic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	74	2	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	3	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	4	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	74	5	overcome	overcome	VB
work_icxav2q5tjbe7kce734r5lp4wi	74	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	74	7	conflict	conflict	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	8	there	there	RB
work_icxav2q5tjbe7kce734r5lp4wi	74	9	understand	understand	VBP
work_icxav2q5tjbe7kce734r5lp4wi	74	10	equations	equation	NNS
work_icxav2q5tjbe7kce734r5lp4wi	74	11	caused	cause	VBD
work_icxav2q5tjbe7kce734r5lp4wi	74	12	no	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	74	13	solution	solution	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	74	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	74	16	problem	problem	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	17	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	74	18	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	74	19	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	74	20	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	21	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	74	22	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	74	23	easily	easily	RB
work_icxav2q5tjbe7kce734r5lp4wi	74	24	implemented	implement	VBN
work_icxav2q5tjbe7kce734r5lp4wi	74	25	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	74	26	software	software	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	27	programming	programming	NN
work_icxav2q5tjbe7kce734r5lp4wi	74	28	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	75	1	Statistical	statistical	JJ
work_icxav2q5tjbe7kce734r5lp4wi	75	2	chart	chart	NN
work_icxav2q5tjbe7kce734r5lp4wi	75	3	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	75	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	75	5	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	75	6	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	75	7	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	75	8	No	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	75	9	calculated	calculate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	75	10	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	75	11	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	75	12	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	75	13	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	75	14	shown	show	VBN
work_icxav2q5tjbe7kce734r5lp4wi	75	15	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	75	16	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	75	17	figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	75	18	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	75	19	-	-	SYM
work_icxav2q5tjbe7kce734r5lp4wi	75	20	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	75	21	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	76	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	76	2	abscissa	abscissa	NN
work_icxav2q5tjbe7kce734r5lp4wi	76	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	76	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	76	5	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	76	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	76	7	iterations	iteration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	76	8	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	76	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	76	10	longitudinal	longitudinal	JJ
work_icxav2q5tjbe7kce734r5lp4wi	76	11	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	76	12	coordinates	coordinate	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	76	13	2So	2So	NNS
work_icxav2q5tjbe7kce734r5lp4wi	76	14	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	76	15	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	76	16	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	76	17	ppm	ppm	NNP
work_icxav2q5tjbe7kce734r5lp4wi	76	18	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	76	19	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	77	1	0	0	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	2	10	10	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	3	20	20	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	4	30	30	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	5	40	40	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	6	50	50	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	7	60	60	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	8	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	9	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	10	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	11	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	12	5	5	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	13	Figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	77	14	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	77	15	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	78	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	78	2	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	78	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	78	4	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	78	5	curves	curve	NNS
work_icxav2q5tjbe7kce734r5lp4wi	78	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	78	7	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	78	8	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	78	9	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	78	10	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	11	So	so	RB
work_icxav2q5tjbe7kce734r5lp4wi	78	12	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	78	13	239	239	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	14	240	240	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	15	241	241	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	16	242	242	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	17	243	243	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	18	244	244	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	19	245	245	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	20	246	246	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	21	247	247	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	22	248	248	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	23	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	24	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	25	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	26	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	27	5	5	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	28	Figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	78	29	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	78	30	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	79	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	2	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	4	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	5	curves	curve	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	6	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	7	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	8	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	9	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	79	10	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	79	11	No	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	12	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	13	According	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	79	14	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	16	running	running	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	17	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	18	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	79	19	statistics	statistic	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	20	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	79	21	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	79	22	seen	see	VBN
work_icxav2q5tjbe7kce734r5lp4wi	79	23	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	24	figure	figure	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	25	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	79	26	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	27	process	process	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	28	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	29	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	30	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	79	31	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	32	successive	successive	JJ
work_icxav2q5tjbe7kce734r5lp4wi	79	33	approximation	approximation	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	34	process	process	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	35	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	79	36	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	37	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	38	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	39	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	40	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	79	41	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	43	increase	increase	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	44	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	45	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	46	number	number	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	47	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	48	iterations	iteration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	49	decreases	decrease	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	79	50	gradually	gradually	RB
work_icxav2q5tjbe7kce734r5lp4wi	79	51	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	79	52	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	79	53	tends	tend	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	79	54	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	79	55	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	79	56	stable	stable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	79	57	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	79	58	but	but	CC
work_icxav2q5tjbe7kce734r5lp4wi	79	59	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	79	60	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	79	61	exactly	exactly	RB
work_icxav2q5tjbe7kce734r5lp4wi	79	62	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	79	63	opposite	opposite	JJ
work_icxav2q5tjbe7kce734r5lp4wi	79	64	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	79	65	results	result	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	66	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	79	67	increasing	increase	VBG
work_icxav2q5tjbe7kce734r5lp4wi	79	68	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	69	times	time	NNS
work_icxav2q5tjbe7kce734r5lp4wi	79	70	increase	increase	NN
work_icxav2q5tjbe7kce734r5lp4wi	79	71	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	80	1	Cyclic	cyclic	JJ
work_icxav2q5tjbe7kce734r5lp4wi	80	2	iterative	iterative	JJ
work_icxav2q5tjbe7kce734r5lp4wi	80	3	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	80	4	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	80	5	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	80	6	iterations	iteration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	80	7	later	later	RB
work_icxav2q5tjbe7kce734r5lp4wi	80	8	effect	effect	NN
work_icxav2q5tjbe7kce734r5lp4wi	80	9	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	80	10	not	not	RB
work_icxav2q5tjbe7kce734r5lp4wi	80	11	obvious	obvious	JJ
work_icxav2q5tjbe7kce734r5lp4wi	80	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	80	13	which	which	WDT
work_icxav2q5tjbe7kce734r5lp4wi	80	14	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	80	15	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	80	16	say	say	VB
work_icxav2q5tjbe7kce734r5lp4wi	80	17	as	as	RB
work_icxav2q5tjbe7kce734r5lp4wi	80	18	long	long	RB
work_icxav2q5tjbe7kce734r5lp4wi	80	19	as	as	IN
work_icxav2q5tjbe7kce734r5lp4wi	80	20	two	two	CD
work_icxav2q5tjbe7kce734r5lp4wi	80	21	iterations	iteration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	80	22	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	81	1	This	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	81	2	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	81	3	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	81	4	calculated	calculate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	81	5	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	81	6	2No	2No	NNS
work_icxav2q5tjbe7kce734r5lp4wi	81	7	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	81	8	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	81	9	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	81	10	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	82	1	B.	B.	NNP
work_icxav2q5tjbe7kce734r5lp4wi	83	1	Calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	83	2	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	3	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	5	NO	NO	NNP
work_icxav2q5tjbe7kce734r5lp4wi	83	6	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	83	7	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	83	8	Because	because	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	9	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	10	NO	no	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	11	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	83	12	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	83	13	absorption	absorption	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	14	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	15	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	16	selected	select	VBN
work_icxav2q5tjbe7kce734r5lp4wi	83	17	wavelengths	wavelength	NNS
work_icxav2q5tjbe7kce734r5lp4wi	83	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	19	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	83	20	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	83	21	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	22	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	23	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	24	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	83	25	does	do	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	83	26	not	not	RB
work_icxav2q5tjbe7kce734r5lp4wi	83	27	interfere	interfere	VB
work_icxav2q5tjbe7kce734r5lp4wi	83	28	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	29	each	each	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	30	other	other	JJ
work_icxav2q5tjbe7kce734r5lp4wi	83	31	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	83	32	so	so	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	33	it	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	83	34	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	83	35	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	83	36	separated	separate	VBN
work_icxav2q5tjbe7kce734r5lp4wi	83	37	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	38	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	39	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	40	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	83	41	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	83	42	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	43	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	83	44	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	83	45	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	83	46	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	83	47	NO	no	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	48	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	83	49	calculation	calculation	NN
work_icxav2q5tjbe7kce734r5lp4wi	83	50	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	84	1	Hypothesis	hypothesis	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	2	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	84	3	been	be	VBN
work_icxav2q5tjbe7kce734r5lp4wi	84	4	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	84	5	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	6	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	7	mixed	mix	VBN
work_icxav2q5tjbe7kce734r5lp4wi	84	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	9	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	10	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	11	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	84	12	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	13	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	14	C1	C1	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	15	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	16	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	84	17	C2	c2	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	18	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	19	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	21	NO	NO	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	22	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	84	23	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	24	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	25	C3	c3	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	26	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	84	27	C4	c4	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	28	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	29	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	84	30	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	31	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	32	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	33	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	34	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	35	according	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	84	36	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	37	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	38	superposition	superposition	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	39	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	40	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	41	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	43	available	available	JJ
work_icxav2q5tjbe7kce734r5lp4wi	84	44	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	45	0	0	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	46	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	47	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	48	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	49	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	50	2	2	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	51	lg	lg	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	52	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	84	53	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	84	54	I	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	84	55	I	i	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	56	A	a	VBP
work_icxav2q5tjbe7kce734r5lp4wi	84	57	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	58	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	59	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	60	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	61	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	62			NN
work_icxav2q5tjbe7kce734r5lp4wi	84	63			NNS
work_icxav2q5tjbe7kce734r5lp4wi	84	64			CD
work_icxav2q5tjbe7kce734r5lp4wi	84	65			NNS
work_icxav2q5tjbe7kce734r5lp4wi	84	66			NNS
work_icxav2q5tjbe7kce734r5lp4wi	84	67	1	1	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	68	A	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	69	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	84	70	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	71	C1	C1	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	72	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	73	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	74	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	75	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	76	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	77	225.8	225.8	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	78	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	79	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	80	2A	2A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	81	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	84	82	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	83	C2	C2	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	84	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	85	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	86	2So	2so	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	87	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	88	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	89	225.8	225.8	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	90	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	91	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	92	A	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	93	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	84	94	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	95	mixture	mixture	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	96	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	97	gases	gas	NNS
work_icxav2q5tjbe7kce734r5lp4wi	84	98	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	99	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	100	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	101	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	102	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	84	103	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	104	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	105	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	106	nm	nm	CD
work_icxav2q5tjbe7kce734r5lp4wi	84	107	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	84	108	3A	3A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	84	109	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	84	110	NO	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	84	111	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	84	112	total	total	JJ
work_icxav2q5tjbe7kce734r5lp4wi	84	113	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	84	114	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	85	1	0	0	NFP
work_icxav2q5tjbe7kce734r5lp4wi	85	2	I	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	85	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	85	4	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	85	5	spectral	spectral	JJ
work_icxav2q5tjbe7kce734r5lp4wi	85	6	intensity	intensity	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	7	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	8	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	85	9	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	10	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	11	zero	zero	CD
work_icxav2q5tjbe7kce734r5lp4wi	85	12	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	85	14	I	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	85	15	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	85	16	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	85	17	intensity	intensity	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	18	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	19	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	85	20	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	21	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	22	transmission	transmission	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	23	into	into	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	24	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	85	25	mixed	mix	VBN
work_icxav2q5tjbe7kce734r5lp4wi	85	26	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	27	after	after	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	28	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	85	29	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	85	30	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	85	31	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	85	32	directly	directly	RB
work_icxav2q5tjbe7kce734r5lp4wi	85	33	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	34	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	85	35	spectrometer	spectrometer	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	36	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	85	37	2A	2A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	85	38	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	85	39	3A	3A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	85	40	concentrations	concentration	NNS
work_icxav2q5tjbe7kce734r5lp4wi	85	41	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	42	A	a	NN
work_icxav2q5tjbe7kce734r5lp4wi	85	43	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	85	44	2No	2no	CD
work_icxav2q5tjbe7kce734r5lp4wi	85	45	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	85	46	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	85	47	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	86	1	Absorbance	Absorbance	NNP
work_icxav2q5tjbe7kce734r5lp4wi	86	2	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	3	3A	3A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	86	4	so	so	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	5	you	-PRON-	PRP
work_icxav2q5tjbe7kce734r5lp4wi	86	6	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	86	7	get	get	VB
work_icxav2q5tjbe7kce734r5lp4wi	86	8	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	86	9	NO	no	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	10	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	11	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	86	12	nm	nm	UH
work_icxav2q5tjbe7kce734r5lp4wi	86	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	86	14	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	86	15	according	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	86	16	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	17	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	86	18	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	19	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	86	20	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	21	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	22	225.88	225.88	CD
work_icxav2q5tjbe7kce734r5lp4wi	86	23	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	24	correspondence	correspondence	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	25	between	between	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	26	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	86	27	NO	no	DT
work_icxav2q5tjbe7kce734r5lp4wi	86	28	table	table	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	29	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	86	30	calculate	calculate	VB
work_icxav2q5tjbe7kce734r5lp4wi	86	31	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	86	32	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	86	33	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	86	34	NO	no	UH
work_icxav2q5tjbe7kce734r5lp4wi	86	35	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	87	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	87	2	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	3	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	4	4A	4A	NNP
work_icxav2q5tjbe7kce734r5lp4wi	87	5	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	87	6	can	can	MD
work_icxav2q5tjbe7kce734r5lp4wi	87	7	be	be	VB
work_icxav2q5tjbe7kce734r5lp4wi	87	8	obtained	obtain	VBN
work_icxav2q5tjbe7kce734r5lp4wi	87	9	with	with	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	10	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	87	11	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	87	12	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	13	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	14	208.23	208.23	CD
work_icxav2q5tjbe7kce734r5lp4wi	87	15	nm	nm	UH
work_icxav2q5tjbe7kce734r5lp4wi	87	16	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	87	17	then	then	RB
work_icxav2q5tjbe7kce734r5lp4wi	87	18	according	accord	VBG
work_icxav2q5tjbe7kce734r5lp4wi	87	19	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	87	21	corresponding	corresponding	JJ
work_icxav2q5tjbe7kce734r5lp4wi	87	22	relationship	relationship	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	23	between	between	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	24	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	25	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	87	26	absorbance	absorbance	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	27	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	28	208.23	208.23	CD
work_icxav2q5tjbe7kce734r5lp4wi	87	29	nm	nm	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	30	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	87	31	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	87	32	3NH	3nh	CD
work_icxav2q5tjbe7kce734r5lp4wi	87	33	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	87	34	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	88	1	VI	VI	NNP
work_icxav2q5tjbe7kce734r5lp4wi	88	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	89	1	CONCLUSION	CONCLUSION	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	2	Main	Main	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	3	harmful	harmful	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	4	components	component	NNS
work_icxav2q5tjbe7kce734r5lp4wi	89	5	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	89	6	atmospheric	atmospheric	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	7	environmental	environmental	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	8	pollution	pollution	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	9	monitoring	monitoring	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	10	requirements	requirement	NNS
work_icxav2q5tjbe7kce734r5lp4wi	89	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	89	12	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	89	13	uv	uv	RB
work_icxav2q5tjbe7kce734r5lp4wi	89	14	wavelength	wavelength	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	15	grating	grating	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	16	type	type	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	17	continuous	continuous	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	18	frequency	frequency	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	19	measuring	measuring	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	20	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	21	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	89	22	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	89	23	International	International	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	24	Conference	Conference	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	25	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	89	26	Sensor	Sensor	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	27	Network	Network	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	28	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	89	29	Computer	Computer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	30	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	31	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	89	32	ICSNCE	ICSNCE	NNP
work_icxav2q5tjbe7kce734r5lp4wi	89	33	2018	2018	CD
work_icxav2q5tjbe7kce734r5lp4wi	89	34	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	89	35	18	18	CD
work_icxav2q5tjbe7kce734r5lp4wi	89	36	precision	precision	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	37	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	89	38	put	put	VBN
work_icxav2q5tjbe7kce734r5lp4wi	89	39	forward	forward	RP
work_icxav2q5tjbe7kce734r5lp4wi	89	40	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	89	41	solve	solve	VB
work_icxav2q5tjbe7kce734r5lp4wi	89	42	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	89	43	various	various	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	44	harmful	harmful	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	45	ingredient	ingredient	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	46	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	47	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	89	48	recursive	recursive	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	49	iteration	iteration	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	50	fast	fast	JJ
work_icxav2q5tjbe7kce734r5lp4wi	89	51	inversion	inversion	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	52	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	53	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	89	54	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	89	55	validates	validate	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	89	56	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	89	57	effectiveness	effectiveness	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	58	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	89	59	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	89	60	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	89	61	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	90	1	Portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	2	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	3	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	4	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	5	based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	90	6	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	7	this	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	8	algorithm	algorithm	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	9	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	90	10	based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	90	11	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	12	embedded	embed	VBN
work_icxav2q5tjbe7kce734r5lp4wi	90	13	technology	technology	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	14	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	90	15	sensor	sensor	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	16	based	base	VBN
work_icxav2q5tjbe7kce734r5lp4wi	90	17	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	18	micro	micro	NNP
work_icxav2q5tjbe7kce734r5lp4wi	90	19	spectrometer	spectrometer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	90	20	data	data	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	21	collection	collection	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	22	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	90	23	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	90	24	uv	uv	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	25	light	light	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	26	source	source	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	27	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	28	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	29	spectrum	spectrum	NNP
work_icxav2q5tjbe7kce734r5lp4wi	90	30	analysis	analysis	NNP
work_icxav2q5tjbe7kce734r5lp4wi	90	31	method	method	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	32	analysis	analysis	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	33	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	34	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	35	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	36	concentration	concentration	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	37	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	90	38	achieved	achieve	VBN
work_icxav2q5tjbe7kce734r5lp4wi	90	39	through	through	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	40	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	41	use	use	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	42	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	43	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	44	miniature	miniature	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	45	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	46	analyzer	analyzer	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	47	to	to	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	48	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	49	variety	variety	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	50	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	51	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	52	composition	composition	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	53	at	at	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	54	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	55	same	same	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	56	time	time	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	57	for	for	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	58	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	90	59	purpose	purpose	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	60	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	90	61	accurate	accurate	JJ
work_icxav2q5tjbe7kce734r5lp4wi	90	62	measurement	measurement	NN
work_icxav2q5tjbe7kce734r5lp4wi	90	63	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	91	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	91	2	product	product	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	3	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	91	4	compact	compact	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	5	structure	structure	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	6	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	91	7	high	high	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	8	measuring	measure	VBG
work_icxav2q5tjbe7kce734r5lp4wi	91	9	accuracy	accuracy	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	10	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	91	11	strong	strong	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	12	anti	anti	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	13	-	-	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	14	interference	interference	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	15	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	91	16	high	high	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	17	sensitivity	sensitivity	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	18	etc	etc	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	19	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	91	20	has	have	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	91	21	a	a	DT
work_icxav2q5tjbe7kce734r5lp4wi	91	22	broad	broad	JJ
work_icxav2q5tjbe7kce734r5lp4wi	91	23	application	application	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	24	prospect	prospect	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	25	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	91	26	popularization	popularization	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	27	value	value	NN
work_icxav2q5tjbe7kce734r5lp4wi	91	28	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	92	1	ACKNOWLEDGMENT	acknowledgment	DT
work_icxav2q5tjbe7kce734r5lp4wi	92	2	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	92	3	authors	author	NNS
work_icxav2q5tjbe7kce734r5lp4wi	92	4	wish	wish	VBP
work_icxav2q5tjbe7kce734r5lp4wi	92	5	to	to	TO
work_icxav2q5tjbe7kce734r5lp4wi	92	6	thank	thank	VB
work_icxav2q5tjbe7kce734r5lp4wi	92	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	92	8	cooperators	cooperator	NNS
work_icxav2q5tjbe7kce734r5lp4wi	92	9	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	93	1	This	this	DT
work_icxav2q5tjbe7kce734r5lp4wi	93	2	research	research	NN
work_icxav2q5tjbe7kce734r5lp4wi	93	3	is	be	VBZ
work_icxav2q5tjbe7kce734r5lp4wi	93	4	partially	partially	RB
work_icxav2q5tjbe7kce734r5lp4wi	93	5	funded	fund	VBN
work_icxav2q5tjbe7kce734r5lp4wi	93	6	by	by	IN
work_icxav2q5tjbe7kce734r5lp4wi	93	7	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	93	8	Project	Project	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	9	funds	fund	NNS
work_icxav2q5tjbe7kce734r5lp4wi	93	10	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	93	11	shaanxi	shaanxi	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	12	province	province	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	13	department	department	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	14	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	93	15	education	education	NN
work_icxav2q5tjbe7kce734r5lp4wi	93	16	(	(	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	93	17	15JF019	15jf019	CD
work_icxav2q5tjbe7kce734r5lp4wi	93	18	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	93	19	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	93	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	93	21	Project	Project	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	22	funds	fund	NNS
work_icxav2q5tjbe7kce734r5lp4wi	93	23	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	93	24	shaanxi	shaanxi	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	25	province	province	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	26	department	department	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	27	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	93	28	science	science	NNP
work_icxav2q5tjbe7kce734r5lp4wi	93	29	industrial	industrial	JJ
work_icxav2q5tjbe7kce734r5lp4wi	93	30	projects(2015GY067	projects(2015gy067	NN
work_icxav2q5tjbe7kce734r5lp4wi	93	31	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	93	32	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	94	1	REFERENCE	reference	NN
work_icxav2q5tjbe7kce734r5lp4wi	94	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	95	1	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	95	2	1	1	LS
work_icxav2q5tjbe7kce734r5lp4wi	95	3	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	95	4	Zhu	Zhu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	5	Fa	Fa	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	6	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	95	7	hua	hua	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	8	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	95	9	Li	Li	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	10	Hui	Hui	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	11	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	95	12	Qiu	Qiu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	13	Shu	Shu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	14	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	95	15	guang	guang	NNP
work_icxav2q5tjbe7kce734r5lp4wi	95	16	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	96	1	Development	development	NN
work_icxav2q5tjbe7kce734r5lp4wi	96	2	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	96	3	Application	Application	NNP
work_icxav2q5tjbe7kce734r5lp4wi	96	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	96	5	Continuous	Continuous	NNP
work_icxav2q5tjbe7kce734r5lp4wi	96	6	Em	Em	NNP
work_icxav2q5tjbe7kce734r5lp4wi	96	7	ission	ission	NN
work_icxav2q5tjbe7kce734r5lp4wi	96	8	Monitoring	Monitoring	NNP
work_icxav2q5tjbe7kce734r5lp4wi	96	9	Technology[J	Technology[J	NNP
work_icxav2q5tjbe7kce734r5lp4wi	96	10	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	96	11	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	97	1	Administration	administration	NN
work_icxav2q5tjbe7kce734r5lp4wi	97	2	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	97	3	Technique	Technique	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	97	5	Environmental	Environmental	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	6	Monitoring	Monitoring	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	7	2010(22	2010(22	CD
work_icxav2q5tjbe7kce734r5lp4wi	97	8	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	97	9	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	97	10	2	2	LS
work_icxav2q5tjbe7kce734r5lp4wi	97	11	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	97	12	Lei	Lei	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	13	Tian	Tian	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	14	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	97	15	xue	xue	NNP
work_icxav2q5tjbe7kce734r5lp4wi	97	16	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	98	1	The	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	98	2	present	present	JJ
work_icxav2q5tjbe7kce734r5lp4wi	98	3	situation	situation	NN
work_icxav2q5tjbe7kce734r5lp4wi	98	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	98	5	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	98	6	portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	98	7	flue	flue	JJ
work_icxav2q5tjbe7kce734r5lp4wi	98	8	gas	gas	NN
work_icxav2q5tjbe7kce734r5lp4wi	98	9	analyzer[J	analyzer[j	NN
work_icxav2q5tjbe7kce734r5lp4wi	98	10	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	98	11	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	99	1	Administration	administration	NN
work_icxav2q5tjbe7kce734r5lp4wi	99	2	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	99	3	Technique	Technique	NNP
work_icxav2q5tjbe7kce734r5lp4wi	99	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	99	5	Environmental	Environmental	NNP
work_icxav2q5tjbe7kce734r5lp4wi	99	6	Monitoring	Monitoring	NNP
work_icxav2q5tjbe7kce734r5lp4wi	99	7	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	100	1	1998(10	1998(10	LS
work_icxav2q5tjbe7kce734r5lp4wi	100	2	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	100	3	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	100	4	3	3	CD
work_icxav2q5tjbe7kce734r5lp4wi	100	5	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	100	6	Ju	Ju	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	7	Hui	Hui	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	8	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	100	9	Wu	Wu	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	10	Yi	Yi	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	11	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	100	12	hui	hui	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	13	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	100	14	Development	development	NN
work_icxav2q5tjbe7kce734r5lp4wi	100	15	situation	situation	NN
work_icxav2q5tjbe7kce734r5lp4wi	100	16	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	100	17	micro	micro	NNP
work_icxav2q5tjbe7kce734r5lp4wi	100	18	spectrometers[J	spectrometers[j	LS
work_icxav2q5tjbe7kce734r5lp4wi	100	19	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	100	20	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	101	1	Optics	Optics	NNP
work_icxav2q5tjbe7kce734r5lp4wi	101	2	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	101	3	Precision	Precision	NNP
work_icxav2q5tjbe7kce734r5lp4wi	101	4	Engineering	Engineering	NNP
work_icxav2q5tjbe7kce734r5lp4wi	101	5	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	102	1	2004.9(4	2004.9(4	NNP
work_icxav2q5tjbe7kce734r5lp4wi	102	2	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	102	3	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	103	1	pp372	pp372	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	2	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	103	3	376	376	CD
work_icxav2q5tjbe7kce734r5lp4wi	103	4	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	103	5	4	4	CD
work_icxav2q5tjbe7kce734r5lp4wi	103	6	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	103	7	Shi	Shi	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	8	Baosong	Baosong	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	9	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	103	10	Sun	Sun	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	11	Shouhong	Shouhong	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	12	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	103	13	Zhang	Zhang	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	14	Wei	Wei	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	15	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	103	16	Application	application	NN
work_icxav2q5tjbe7kce734r5lp4wi	103	17	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	103	18	CCD	CCD	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	19	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	103	20	the	the	DT
work_icxav2q5tjbe7kce734r5lp4wi	103	21	portable	portable	JJ
work_icxav2q5tjbe7kce734r5lp4wi	103	22	spectrometer[J].Electronic	spectrometer[j].electronic	NN
work_icxav2q5tjbe7kce734r5lp4wi	103	23	Measurement	Measurement	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	24	Technology	Technology	NNP
work_icxav2q5tjbe7kce734r5lp4wi	103	25	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	104	1	2010(11	2010(11	LS
work_icxav2q5tjbe7kce734r5lp4wi	104	2	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	104	3	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	104	4	5	5	CD
work_icxav2q5tjbe7kce734r5lp4wi	104	5	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	104	6	Limited	limited	JJ
work_icxav2q5tjbe7kce734r5lp4wi	104	7	ARM	ARM	NNP
work_icxav2q5tjbe7kce734r5lp4wi	104	8	Development	Development	NNP
work_icxav2q5tjbe7kce734r5lp4wi	104	9	Guide	Guide	NNP
work_icxav2q5tjbe7kce734r5lp4wi	104	10	2000	2000	CD
work_icxav2q5tjbe7kce734r5lp4wi	104	11	-	-	SYM
work_icxav2q5tjbe7kce734r5lp4wi	104	12	2001	2001	CD
work_icxav2q5tjbe7kce734r5lp4wi	104	13	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	105	1	ARM	ARM	NNP
work_icxav2q5tjbe7kce734r5lp4wi	105	2	DOI	DOI	NNP
work_icxav2q5tjbe7kce734r5lp4wi	105	3	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	106	1	2000.06	2000.06	CD
work_icxav2q5tjbe7kce734r5lp4wi	106	2	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	107	1	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	107	2	6	6	CD
work_icxav2q5tjbe7kce734r5lp4wi	107	3	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	107	4	Dong	Dong	NNP
work_icxav2q5tjbe7kce734r5lp4wi	107	5	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	107	6	Qing	Qing	NNP
work_icxav2q5tjbe7kce734r5lp4wi	107	7	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	108	1	Ocean	ocean	NN
work_icxav2q5tjbe7kce734r5lp4wi	108	2	wave	wave	VBP
work_icxav2q5tjbe7kce734r5lp4wi	108	3	spectrum	spectrum	NN
work_icxav2q5tjbe7kce734r5lp4wi	108	4	from	from	IN
work_icxav2q5tjbe7kce734r5lp4wi	108	5	SAR	SAR	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	6	image	image	NN
work_icxav2q5tjbe7kce734r5lp4wi	108	7	using	use	VBG
work_icxav2q5tjbe7kce734r5lp4wi	108	8	2D	2D	VBN
work_icxav2q5tjbe7kce734r5lp4wi	108	9	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	108	10	ARMA	ARMA	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	11	model	model	NN
work_icxav2q5tjbe7kce734r5lp4wi	108	12	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	108	13	IEEEInternational	ieeeinternational	JJ
work_icxav2q5tjbe7kce734r5lp4wi	108	14	Geosciences	Geosciences	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	15	and	and	CC
work_icxav2q5tjbe7kce734r5lp4wi	108	16	Remote	Remote	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	17	Sensing	Sensing	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	18	Symposium	Symposium	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	19	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	108	20	2005	2005	CD
work_icxav2q5tjbe7kce734r5lp4wi	108	21	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	108	22	991	991	CD
work_icxav2q5tjbe7kce734r5lp4wi	108	23	-	-	SYM
work_icxav2q5tjbe7kce734r5lp4wi	108	24	994	994	CD
work_icxav2q5tjbe7kce734r5lp4wi	108	25	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	108	26	7	7	CD
work_icxav2q5tjbe7kce734r5lp4wi	108	27	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	108	28	Chen	Chen	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	29	Zhi	Zhi	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	30	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	108	31	gang	gang	NNP
work_icxav2q5tjbe7kce734r5lp4wi	108	32	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	109	1	Discussion	discussion	NN
work_icxav2q5tjbe7kce734r5lp4wi	109	2	on	on	IN
work_icxav2q5tjbe7kce734r5lp4wi	109	3	Application	Application	NNP
work_icxav2q5tjbe7kce734r5lp4wi	109	4	of	of	IN
work_icxav2q5tjbe7kce734r5lp4wi	109	5	Lambert	Lambert	NNP
work_icxav2q5tjbe7kce734r5lp4wi	109	6	-	-	HYPH
work_icxav2q5tjbe7kce734r5lp4wi	109	7	Beer	Beer	NNP
work_icxav2q5tjbe7kce734r5lp4wi	109	8	law	law	NN
work_icxav2q5tjbe7kce734r5lp4wi	109	9	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	109	10	test	test	NN
work_icxav2q5tjbe7kce734r5lp4wi	109	11	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	109	12	J	J	NNP
work_icxav2q5tjbe7kce734r5lp4wi	109	13	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	109	14	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	110	1	Acta	Acta	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	2	Metrologica	Metrologica	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	3	Sinica.1985(1	Sinica.1985(1	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	4	)	)	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	110	5	[	[	-LRB-
work_icxav2q5tjbe7kce734r5lp4wi	110	6	8	8	CD
work_icxav2q5tjbe7kce734r5lp4wi	110	7	]	]	-RRB-
work_icxav2q5tjbe7kce734r5lp4wi	110	8	Pop	pop	NN
work_icxav2q5tjbe7kce734r5lp4wi	110	9	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	110	10	Paul	Paul	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	11	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	110	12	Embeddedsystems	embeddedsystem	NNS
work_icxav2q5tjbe7kce734r5lp4wi	110	13	design	design	VBP
work_icxav2q5tjbe7kce734r5lp4wi	110	14	:	:	:
work_icxav2q5tjbe7kce734r5lp4wi	110	15	Optimization	optimization	NN
work_icxav2q5tjbe7kce734r5lp4wi	110	16	challenges	challenge	NNS
work_icxav2q5tjbe7kce734r5lp4wi	110	17	.	.	.
work_icxav2q5tjbe7kce734r5lp4wi	110	18	Lecture	Lecture	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	19	Notes	Notes	NNPS
work_icxav2q5tjbe7kce734r5lp4wi	110	20	in	in	IN
work_icxav2q5tjbe7kce734r5lp4wi	110	21	ComputerScience	ComputerScience	NNP
work_icxav2q5tjbe7kce734r5lp4wi	110	22	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	110	23	2005	2005	CD
work_icxav2q5tjbe7kce734r5lp4wi	110	24	,	,	,
work_icxav2q5tjbe7kce734r5lp4wi	110	25	35(24):16	35(24):16	CD
work_icxav2q5tjbe7kce734r5lp4wi	110	26	-	-	SYM
work_icxav2q5tjbe7kce734r5lp4wi	110	27	20	20	CD