id	sid	tid	token	lemma	pos
work_pvikvih5cjhrlpfywsvxacvvji	1	1	effects	effect	NNS
work_pvikvih5cjhrlpfywsvxacvvji	1	2	have	have	VBP
work_pvikvih5cjhrlpfywsvxacvvji	1	3	inadvertently	inadvertently	RB
work_pvikvih5cjhrlpfywsvxacvvji	1	4	been	be	VBN
work_pvikvih5cjhrlpfywsvxacvvji	1	5	exploited	exploit	VBN
work_pvikvih5cjhrlpfywsvxacvvji	1	6	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	7	glass	glass	NN
work_pvikvih5cjhrlpfywsvxacvvji	1	8	makers	maker	NNS
work_pvikvih5cjhrlpfywsvxacvvji	1	9	since	since	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	10	at	at	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	11	least	least	JJS
work_pvikvih5cjhrlpfywsvxacvvji	1	12	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	1	13	fourth	fourth	JJ
work_pvikvih5cjhrlpfywsvxacvvji	1	14	century	century	NN
work_pvikvih5cjhrlpfywsvxacvvji	1	15	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	1	16	for	for	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	17	example	example	NN
work_pvikvih5cjhrlpfywsvxacvvji	1	18	to	to	TO
work_pvikvih5cjhrlpfywsvxacvvji	1	19	generate	generate	VB
work_pvikvih5cjhrlpfywsvxacvvji	1	20	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	1	21	colours	colour	NNS
work_pvikvih5cjhrlpfywsvxacvvji	1	22	used	use	VBN
work_pvikvih5cjhrlpfywsvxacvvji	1	23	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	24	stained	stain	VBN
work_pvikvih5cjhrlpfywsvxacvvji	1	25	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	1	26	glass	glass	NN
work_pvikvih5cjhrlpfywsvxacvvji	1	27	windows	window	NNS
work_pvikvih5cjhrlpfywsvxacvvji	1	28	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	1	29	medieval	medieval	JJ
work_pvikvih5cjhrlpfywsvxacvvji	1	30	cathedrals	cathedral	NNS
work_pvikvih5cjhrlpfywsvxacvvji	1	31	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	2	1	The	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	2	2	scientific	scientific	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	3	investigation	investigation	NN
work_pvikvih5cjhrlpfywsvxacvvji	2	4	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	5	plasmonic	plasmonic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	6	effects	effect	NNS
work_pvikvih5cjhrlpfywsvxacvvji	2	7	began	begin	VBD
work_pvikvih5cjhrlpfywsvxacvvji	2	8	as	as	RB
work_pvikvih5cjhrlpfywsvxacvvji	2	9	early	early	RB
work_pvikvih5cjhrlpfywsvxacvvji	2	10	as	as	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	11	1899	1899	CD
work_pvikvih5cjhrlpfywsvxacvvji	2	12	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	13	theoretical	theoretical	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	14	studies	study	NNS
work_pvikvih5cjhrlpfywsvxacvvji	2	15	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	16	Arnold	Arnold	NNP
work_pvikvih5cjhrlpfywsvxacvvji	2	17	Sommerfeld	Sommerfeld	NNP
work_pvikvih5cjhrlpfywsvxacvvji	2	18	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	2	19	experi-	experi-	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	20	mental	mental	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	21	observations	observation	NNS
work_pvikvih5cjhrlpfywsvxacvvji	2	22	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	23	plasmonic	plasmonic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	24	effects	effect	NNS
work_pvikvih5cjhrlpfywsvxacvvji	2	25	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	26	light	light	JJ
work_pvikvih5cjhrlpfywsvxacvvji	2	27	spectra	spectra	NNP
work_pvikvih5cjhrlpfywsvxacvvji	2	28	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	29	Robert	Robert	NNP
work_pvikvih5cjhrlpfywsvxacvvji	2	30	Wood	Wood	NNP
work_pvikvih5cjhrlpfywsvxacvvji	2	31	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	2	32	1902	1902	CD
work_pvikvih5cjhrlpfywsvxacvvji	2	33	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	3	1	Later	later	RB
work_pvikvih5cjhrlpfywsvxacvvji	3	2	that	that	DT
work_pvikvih5cjhrlpfywsvxacvvji	3	3	decade	decade	NN
work_pvikvih5cjhrlpfywsvxacvvji	3	4	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	3	5	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	6	C.	C.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	7	Maxwell	Maxwell	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	8	Garnett	Garnett	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	9	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	3	10	Gustav	Gustav	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	11	Mie	Mie	NNP
work_pvikvih5cjhrlpfywsvxacvvji	3	12	developed	develop	VBD
work_pvikvih5cjhrlpfywsvxacvvji	3	13	theories	theory	NNS
work_pvikvih5cjhrlpfywsvxacvvji	3	14	explaining	explain	VBG
work_pvikvih5cjhrlpfywsvxacvvji	3	15	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	3	16	scattering	scatter	VBG
work_pvikvih5cjhrlpfywsvxacvvji	3	17	effects	effect	NNS
work_pvikvih5cjhrlpfywsvxacvvji	3	18	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	3	19	metallic	metallic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	3	20	nanoparticles	nanoparticle	NNS
work_pvikvih5cjhrlpfywsvxacvvji	3	21	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	4	1	However	however	RB
work_pvikvih5cjhrlpfywsvxacvvji	4	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	4	3	it	-PRON-	PRP
work_pvikvih5cjhrlpfywsvxacvvji	4	4	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	4	5	not	not	RB
work_pvikvih5cjhrlpfywsvxacvvji	4	6	until	until	IN
work_pvikvih5cjhrlpfywsvxacvvji	4	7	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	4	8	number	number	NN
work_pvikvih5cjhrlpfywsvxacvvji	4	9	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	4	10	theoretical	theoretical	JJ
work_pvikvih5cjhrlpfywsvxacvvji	4	11	studies	study	NNS
work_pvikvih5cjhrlpfywsvxacvvji	4	12	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	4	13	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	4	14	1950s	1950	NNS
work_pvikvih5cjhrlpfywsvxacvvji	4	15	that	that	IN
work_pvikvih5cjhrlpfywsvxacvvji	4	16	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	4	17	more	more	RBR
work_pvikvih5cjhrlpfywsvxacvvji	4	18	complete	complete	JJ
work_pvikvih5cjhrlpfywsvxacvvji	4	19	understanding	understanding	NN
work_pvikvih5cjhrlpfywsvxacvvji	4	20	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	4	21	SPPs	spp	NNS
work_pvikvih5cjhrlpfywsvxacvvji	4	22	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	4	23	reached	reach	VBN
work_pvikvih5cjhrlpfywsvxacvvji	4	24	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	5	1	The	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	5	2	foundation	foundation	NN
work_pvikvih5cjhrlpfywsvxacvvji	5	3	for	for	IN
work_pvikvih5cjhrlpfywsvxacvvji	5	4	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	5	5	systematic	systematic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	5	6	experimental	experimental	JJ
work_pvikvih5cjhrlpfywsvxacvvji	5	7	study	study	NN
work_pvikvih5cjhrlpfywsvxacvvji	5	8	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	5	9	then	then	RB
work_pvikvih5cjhrlpfywsvxacvvji	5	10	laid	lay	VBN
work_pvikvih5cjhrlpfywsvxacvvji	5	11	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	5	12	1968	1968	CD
work_pvikvih5cjhrlpfywsvxacvvji	5	13	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	5	14	Erich	Erich	NNP
work_pvikvih5cjhrlpfywsvxacvvji	5	15	Kretschmann	Kretschmann	NNP
work_pvikvih5cjhrlpfywsvxacvvji	5	16	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	5	17	Andreas	Andreas	NNP
work_pvikvih5cjhrlpfywsvxacvvji	5	18	Otto	Otto	NNP
work_pvikvih5cjhrlpfywsvxacvvji	5	19	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	5	20	who	who	WP
work_pvikvih5cjhrlpfywsvxacvvji	5	21	devised	devise	VBD
work_pvikvih5cjhrlpfywsvxacvvji	5	22	methods	method	NNS
work_pvikvih5cjhrlpfywsvxacvvji	5	23	to	to	TO
work_pvikvih5cjhrlpfywsvxacvvji	5	24	excite	excite	VB
work_pvikvih5cjhrlpfywsvxacvvji	5	25	SPPs	spp	NNS
work_pvikvih5cjhrlpfywsvxacvvji	5	26	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	5	27	prisms	prism	NNS
work_pvikvih5cjhrlpfywsvxacvvji	5	28	attached	attach	VBN
work_pvikvih5cjhrlpfywsvxacvvji	5	29	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	5	30	metal	metal	NN
work_pvikvih5cjhrlpfywsvxacvvji	5	31	surfaces	surface	NNS
work_pvikvih5cjhrlpfywsvxacvvji	5	32	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	6	1	In	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	2	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	3	late	late	JJ
work_pvikvih5cjhrlpfywsvxacvvji	6	4	1970s	1970	NNS
work_pvikvih5cjhrlpfywsvxacvvji	6	5	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	6	6	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	7	technologi-	technologi-	XX
work_pvikvih5cjhrlpfywsvxacvvji	6	8	cal	cal	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	9	exploitation	exploitation	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	10	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	11	plasmons	plasmon	NNS
work_pvikvih5cjhrlpfywsvxacvvji	6	12	began	begin	VBD
work_pvikvih5cjhrlpfywsvxacvvji	6	13	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	14	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	15	pioneering	pioneer	VBG
work_pvikvih5cjhrlpfywsvxacvvji	6	16	discovery	discovery	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	17	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	18	Martin	Martin	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	19	Fleischmann	Fleischmann	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	20	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	6	21	Richard	Richard	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	22	Van	Van	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	23	Duyne	Duyne	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	24	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	25	significant	significant	JJ
work_pvikvih5cjhrlpfywsvxacvvji	6	26	enhance-	enhance-	.
work_pvikvih5cjhrlpfywsvxacvvji	6	27	ments	ment	NNS
work_pvikvih5cjhrlpfywsvxacvvji	6	28	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	29	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	30	Raman	Raman	NNP
work_pvikvih5cjhrlpfywsvxacvvji	6	31	scattering	scattering	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	32	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	33	The	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	34	‘	'	``
work_pvikvih5cjhrlpfywsvxacvvji	6	35	diffraction	diffraction	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	36	limit	limit	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	37	’	'	''
work_pvikvih5cjhrlpfywsvxacvvji	6	38	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	39	classical	classical	JJ
work_pvikvih5cjhrlpfywsvxacvvji	6	40	optics	optic	NNS
work_pvikvih5cjhrlpfywsvxacvvji	6	41	does	do	VBZ
work_pvikvih5cjhrlpfywsvxacvvji	6	42	not	not	RB
work_pvikvih5cjhrlpfywsvxacvvji	6	43	allow	allow	VB
work_pvikvih5cjhrlpfywsvxacvvji	6	44	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	6	45	localization	localization	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	46	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	47	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	48	into	into	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	49	regions	region	NNS
work_pvikvih5cjhrlpfywsvxacvvji	6	50	that	that	WDT
work_pvikvih5cjhrlpfywsvxacvvji	6	51	are	be	VBP
work_pvikvih5cjhrlpfywsvxacvvji	6	52	much	much	RB
work_pvikvih5cjhrlpfywsvxacvvji	6	53	smaller	small	JJR
work_pvikvih5cjhrlpfywsvxacvvji	6	54	than	than	IN
work_pvikvih5cjhrlpfywsvxacvvji	6	55	its	-PRON-	PRP$
work_pvikvih5cjhrlpfywsvxacvvji	6	56	wavelength	wavelength	NN
work_pvikvih5cjhrlpfywsvxacvvji	6	57	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	7	1	As	as	IN
work_pvikvih5cjhrlpfywsvxacvvji	7	2	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	7	3	result	result	NN
work_pvikvih5cjhrlpfywsvxacvvji	7	4	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	7	5	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	7	6	level	level	NN
work_pvikvih5cjhrlpfywsvxacvvji	7	7	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	7	8	integration	integration	NN
work_pvikvih5cjhrlpfywsvxacvvji	7	9	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	7	10	miniaturization	miniaturization	NN
work_pvikvih5cjhrlpfywsvxacvvji	7	11	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	7	12	photonic	photonic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	7	13	circuits	circuit	NNS
work_pvikvih5cjhrlpfywsvxacvvji	7	14	is	be	VBZ
work_pvikvih5cjhrlpfywsvxacvvji	7	15	not	not	RB
work_pvikvih5cjhrlpfywsvxacvvji	7	16	even	even	RB
work_pvikvih5cjhrlpfywsvxacvvji	7	17	close	close	JJ
work_pvikvih5cjhrlpfywsvxacvvji	7	18	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	7	19	that	that	DT
work_pvikvih5cjhrlpfywsvxacvvji	7	20	achievable	achievable	JJ
work_pvikvih5cjhrlpfywsvxacvvji	7	21	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	7	22	electronics	electronic	NNS
work_pvikvih5cjhrlpfywsvxacvvji	7	23	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	8	1	The	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	8	2	technology	technology	NN
work_pvikvih5cjhrlpfywsvxacvvji	8	3	that	that	WDT
work_pvikvih5cjhrlpfywsvxacvvji	8	4	might	may	MD
work_pvikvih5cjhrlpfywsvxacvvji	8	5	close	close	VB
work_pvikvih5cjhrlpfywsvxacvvji	8	6	this	this	DT
work_pvikvih5cjhrlpfywsvxacvvji	8	7	gap	gap	NN
work_pvikvih5cjhrlpfywsvxacvvji	8	8	is	be	VBZ
work_pvikvih5cjhrlpfywsvxacvvji	8	9	known	know	VBN
work_pvikvih5cjhrlpfywsvxacvvji	8	10	as	as	IN
work_pvikvih5cjhrlpfywsvxacvvji	8	11	‘	'	``
work_pvikvih5cjhrlpfywsvxacvvji	8	12	plasmonics	plasmonic	NNS
work_pvikvih5cjhrlpfywsvxacvvji	8	13	’	'	''
work_pvikvih5cjhrlpfywsvxacvvji	8	14	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	9	1	Plasmonic	plasmonic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	9	2	structures	structure	NNS
work_pvikvih5cjhrlpfywsvxacvvji	9	3	have	have	VBP
work_pvikvih5cjhrlpfywsvxacvvji	9	4	beaten	beat	VBN
work_pvikvih5cjhrlpfywsvxacvvji	9	5	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	9	6	diffraction	diffraction	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	7	limit	limit	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	8	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	9	9	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	9	10	led	lead	VBD
work_pvikvih5cjhrlpfywsvxacvvji	9	11	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	9	12	advances	advance	NNS
work_pvikvih5cjhrlpfywsvxacvvji	9	13	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	9	14	spectroscopy	spectroscopy	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	15	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	9	16	sensing	sensing	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	17	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	9	18	imaging	imaging	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	19	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	9	20	cancer	cancer	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	21	therapy	therapy	NN
work_pvikvih5cjhrlpfywsvxacvvji	9	22	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	9	23	integrated	integrate	VBD
work_pvikvih5cjhrlpfywsvxacvvji	9	24	nano	nano	NNP
work_pvikvih5cjhrlpfywsvxacvvji	9	25	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	9	26	optics	optic	NNS
work_pvikvih5cjhrlpfywsvxacvvji	9	27	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	9	28	solar	solar	JJ
work_pvikvih5cjhrlpfywsvxacvvji	9	29	cells	cell	NNS
work_pvikvih5cjhrlpfywsvxacvvji	9	30	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	9	31	to	to	TO
work_pvikvih5cjhrlpfywsvxacvvji	9	32	name	name	VB
work_pvikvih5cjhrlpfywsvxacvvji	9	33	just	just	RB
work_pvikvih5cjhrlpfywsvxacvvji	9	34	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	9	35	few	few	JJ
work_pvikvih5cjhrlpfywsvxacvvji	9	36	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	10	1	Modern	modern	JJ
work_pvikvih5cjhrlpfywsvxacvvji	10	2	plasmonics	plasmonic	NNS
work_pvikvih5cjhrlpfywsvxacvvji	10	3	started	start	VBD
work_pvikvih5cjhrlpfywsvxacvvji	10	4	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	5	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	10	6	publication	publication	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	7	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	8	1998	1998	CD
work_pvikvih5cjhrlpfywsvxacvvji	10	9	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	10	Thomas	Thomas	NNP
work_pvikvih5cjhrlpfywsvxacvvji	10	11	Ebbesen	Ebbesen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	10	12	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	10	13	colleagues	colleague	NNS
work_pvikvih5cjhrlpfywsvxacvvji	10	14	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	10	15	who	who	WP
work_pvikvih5cjhrlpfywsvxacvvji	10	16	observed	observe	VBD
work_pvikvih5cjhrlpfywsvxacvvji	10	17	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	10	18	surprisingly	surprisingly	RB
work_pvikvih5cjhrlpfywsvxacvvji	10	19	efficient	efficient	JJ
work_pvikvih5cjhrlpfywsvxacvvji	10	20	light	light	JJ
work_pvikvih5cjhrlpfywsvxacvvji	10	21	transmission	transmission	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	22	through	through	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	23	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	10	24	thin	thin	JJ
work_pvikvih5cjhrlpfywsvxacvvji	10	25	metal	metal	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	26	film	film	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	27	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	28	holes	hole	NNS
work_pvikvih5cjhrlpfywsvxacvvji	10	29	ten	ten	CD
work_pvikvih5cjhrlpfywsvxacvvji	10	30	times	time	NNS
work_pvikvih5cjhrlpfywsvxacvvji	10	31	smaller	small	JJR
work_pvikvih5cjhrlpfywsvxacvvji	10	32	than	than	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	33	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	10	34	wavelength	wavelength	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	35	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	10	36	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	10	37	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	11	1	Additionally	additionally	RB
work_pvikvih5cjhrlpfywsvxacvvji	11	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	11	3	more	more	JJR
work_pvikvih5cjhrlpfywsvxacvvji	11	4	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	11	5	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	11	6	transmitted	transmit	VBN
work_pvikvih5cjhrlpfywsvxacvvji	11	7	through	through	IN
work_pvikvih5cjhrlpfywsvxacvvji	11	8	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	11	9	film	film	NN
work_pvikvih5cjhrlpfywsvxacvvji	11	10	than	than	IN
work_pvikvih5cjhrlpfywsvxacvvji	11	11	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	11	12	incident	incident	NN
work_pvikvih5cjhrlpfywsvxacvvji	11	13	onto	onto	IN
work_pvikvih5cjhrlpfywsvxacvvji	11	14	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	11	15	area	area	NN
work_pvikvih5cjhrlpfywsvxacvvji	11	16	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	11	17	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	11	18	holes	hole	NNS
work_pvikvih5cjhrlpfywsvxacvvji	11	19	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	12	1	Eventually	eventually	RB
work_pvikvih5cjhrlpfywsvxacvvji	12	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	12	3	Ebbesen	Ebbesen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	12	4	was	be	VBD
work_pvikvih5cjhrlpfywsvxacvvji	12	5	able	able	JJ
work_pvikvih5cjhrlpfywsvxacvvji	12	6	to	to	TO
work_pvikvih5cjhrlpfywsvxacvvji	12	7	explain	explain	VB
work_pvikvih5cjhrlpfywsvxacvvji	12	8	his	-PRON-	PRP$
work_pvikvih5cjhrlpfywsvxacvvji	12	9	observations	observation	NNS
work_pvikvih5cjhrlpfywsvxacvvji	12	10	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	12	11	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	12	12	properties	property	NNS
work_pvikvih5cjhrlpfywsvxacvvji	12	13	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	12	14	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	12	15	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	12	16	plasmon	plasmon	NN
work_pvikvih5cjhrlpfywsvxacvvji	12	17	polaritons	polariton	NNS
work_pvikvih5cjhrlpfywsvxacvvji	12	18	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	12	19	SPPs	SPPs	NNP
work_pvikvih5cjhrlpfywsvxacvvji	12	20	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	12	21	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	13	1	SPPs	spp	NNS
work_pvikvih5cjhrlpfywsvxacvvji	13	2	consist	consist	VBP
work_pvikvih5cjhrlpfywsvxacvvji	13	3	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	13	4	photons	photon	NNS
work_pvikvih5cjhrlpfywsvxacvvji	13	5	that	that	WDT
work_pvikvih5cjhrlpfywsvxacvvji	13	6	interact	interact	VBP
work_pvikvih5cjhrlpfywsvxacvvji	13	7	with	with	IN
work_pvikvih5cjhrlpfywsvxacvvji	13	8	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	13	9	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	13	10	motions	motion	NNS
work_pvikvih5cjhrlpfywsvxacvvji	13	11	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	13	12	free	free	JJ
work_pvikvih5cjhrlpfywsvxacvvji	13	13	electrons	electron	NNS
work_pvikvih5cjhrlpfywsvxacvvji	13	14	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	13	15	metals	metal	NNS
work_pvikvih5cjhrlpfywsvxacvvji	13	16	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	14	1	Plasmonic	Plasmonic	NNP
work_pvikvih5cjhrlpfywsvxacvvji	14	2	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	14	3	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	14	4	molecules	molecule	NNS
work_pvikvih5cjhrlpfywsvxacvvji	14	5	attached	attach	VBN
work_pvikvih5cjhrlpfywsvxacvvji	14	6	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	14	7	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	14	8	rough	rough	JJ
work_pvikvih5cjhrlpfywsvxacvvji	14	9	silver	silver	NN
work_pvikvih5cjhrlpfywsvxacvvji	14	10	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	14	11	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	15	1	This	this	DT
work_pvikvih5cjhrlpfywsvxacvvji	15	2	effect	effect	NN
work_pvikvih5cjhrlpfywsvxacvvji	15	3	is	be	VBZ
work_pvikvih5cjhrlpfywsvxacvvji	15	4	explored	explore	VBN
work_pvikvih5cjhrlpfywsvxacvvji	15	5	for	for	IN
work_pvikvih5cjhrlpfywsvxacvvji	15	6	devices	device	NNS
work_pvikvih5cjhrlpfywsvxacvvji	15	7	that	that	WDT
work_pvikvih5cjhrlpfywsvxacvvji	15	8	detect	detect	VBP
work_pvikvih5cjhrlpfywsvxacvvji	15	9	molecular	molecular	JJ
work_pvikvih5cjhrlpfywsvxacvvji	15	10	concentrations	concentration	NNS
work_pvikvih5cjhrlpfywsvxacvvji	15	11	down	down	RB
work_pvikvih5cjhrlpfywsvxacvvji	15	12	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	15	13	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	15	14	single	single	JJ
work_pvikvih5cjhrlpfywsvxacvvji	15	15	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	15	16	molecule	molecule	NN
work_pvikvih5cjhrlpfywsvxacvvji	15	17	level	level	NN
work_pvikvih5cjhrlpfywsvxacvvji	15	18	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	16	1	For	for	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	2	applications	application	NNS
work_pvikvih5cjhrlpfywsvxacvvji	16	3	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	4	photonic	photonic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	16	5	circuits	circuit	NNS
work_pvikvih5cjhrlpfywsvxacvvji	16	6	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	16	7	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	16	8	Ebbesen	Ebbesen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	16	9	discovery	discovery	NN
work_pvikvih5cjhrlpfywsvxacvvji	16	10	has	have	VBZ
work_pvikvih5cjhrlpfywsvxacvvji	16	11	led	lead	VBN
work_pvikvih5cjhrlpfywsvxacvvji	16	12	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	13	efforts	effort	NNS
work_pvikvih5cjhrlpfywsvxacvvji	16	14	aimed	aim	VBN
work_pvikvih5cjhrlpfywsvxacvvji	16	15	at	at	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	16	exploiting	exploit	VBG
work_pvikvih5cjhrlpfywsvxacvvji	16	17	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	16	18	highly	highly	RB
work_pvikvih5cjhrlpfywsvxacvvji	16	19	localized	localized	JJ
work_pvikvih5cjhrlpfywsvxacvvji	16	20	nature	nature	NN
work_pvikvih5cjhrlpfywsvxacvvji	16	21	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	22	plasmons	plasmon	NNS
work_pvikvih5cjhrlpfywsvxacvvji	16	23	to	to	TO
work_pvikvih5cjhrlpfywsvxacvvji	16	24	guide	guide	VB
work_pvikvih5cjhrlpfywsvxacvvji	16	25	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	16	26	on	on	IN
work_pvikvih5cjhrlpfywsvxacvvji	16	27	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	16	28	nanoscale	nanoscale	NN
work_pvikvih5cjhrlpfywsvxacvvji	16	29	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	17	1	Furthermore	furthermore	RB
work_pvikvih5cjhrlpfywsvxacvvji	17	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	17	3	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	17	4	plasmon	plasmon	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	5	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	17	6	based	base	VBN
work_pvikvih5cjhrlpfywsvxacvvji	17	7	ana-	ana-	NNP
work_pvikvih5cjhrlpfywsvxacvvji	17	8	logue	logue	NNP
work_pvikvih5cjhrlpfywsvxacvvji	17	9	to	to	IN
work_pvikvih5cjhrlpfywsvxacvvji	17	10	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	17	11	laser	laser	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	12	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	17	13	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	17	14	spaser	spaser	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	15	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	17	16	could	could	MD
work_pvikvih5cjhrlpfywsvxacvvji	17	17	provide	provide	VB
work_pvikvih5cjhrlpfywsvxacvvji	17	18	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	17	19	source	source	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	20	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	17	21	coherent	coherent	JJ
work_pvikvih5cjhrlpfywsvxacvvji	17	22	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	23	below	below	IN
work_pvikvih5cjhrlpfywsvxacvvji	17	24	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	17	25	diffraction	diffraction	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	26	limit	limit	NN
work_pvikvih5cjhrlpfywsvxacvvji	17	27	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	18	1	In	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	18	2	addition	addition	NN
work_pvikvih5cjhrlpfywsvxacvvji	18	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	18	4	SPPs	spp	NNS
work_pvikvih5cjhrlpfywsvxacvvji	18	5	are	be	VBP
work_pvikvih5cjhrlpfywsvxacvvji	18	6	exploited	exploit	VBN
work_pvikvih5cjhrlpfywsvxacvvji	18	7	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	18	8	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	18	9	number	number	NN
work_pvikvih5cjhrlpfywsvxacvvji	18	10	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	18	11	areas	area	NNS
work_pvikvih5cjhrlpfywsvxacvvji	18	12	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	18	13	such	such	JJ
work_pvikvih5cjhrlpfywsvxacvvji	18	14	as	as	IN
work_pvikvih5cjhrlpfywsvxacvvji	18	15	meta	meta	JJ
work_pvikvih5cjhrlpfywsvxacvvji	18	16	materials	material	NNS
work_pvikvih5cjhrlpfywsvxacvvji	18	17	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	18	18	Milestone	Milestone	NNP
work_pvikvih5cjhrlpfywsvxacvvji	18	19	21	21	CD
work_pvikvih5cjhrlpfywsvxacvvji	18	20	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	18	21	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	19	1	Similarly	similarly	RB
work_pvikvih5cjhrlpfywsvxacvvji	19	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	19	3	plasmonic	plasmonic	NNP
work_pvikvih5cjhrlpfywsvxacvvji	19	4	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	19	5	concen-	concen-	NN
work_pvikvih5cjhrlpfywsvxacvvji	19	6	tration	tration	NN
work_pvikvih5cjhrlpfywsvxacvvji	19	7	can	can	MD
work_pvikvih5cjhrlpfywsvxacvvji	19	8	not	not	RB
work_pvikvih5cjhrlpfywsvxacvvji	19	9	only	only	RB
work_pvikvih5cjhrlpfywsvxacvvji	19	10	enhance	enhance	VB
work_pvikvih5cjhrlpfywsvxacvvji	19	11	light	light	JJ
work_pvikvih5cjhrlpfywsvxacvvji	19	12	absorption	absorption	NN
work_pvikvih5cjhrlpfywsvxacvvji	19	13	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	19	14	solar	solar	JJ
work_pvikvih5cjhrlpfywsvxacvvji	19	15	cells	cell	NNS
work_pvikvih5cjhrlpfywsvxacvvji	19	16	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	19	17	but	but	CC
work_pvikvih5cjhrlpfywsvxacvvji	19	18	also	also	RB
work_pvikvih5cjhrlpfywsvxacvvji	19	19	improve	improve	VB
work_pvikvih5cjhrlpfywsvxacvvji	19	20	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	19	21	efficiency	efficiency	NN
work_pvikvih5cjhrlpfywsvxacvvji	19	22	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	19	23	light-	light-	NNP
work_pvikvih5cjhrlpfywsvxacvvji	19	24	emitting	emitting	NNP
work_pvikvih5cjhrlpfywsvxacvvji	19	25	devices	device	NNS
work_pvikvih5cjhrlpfywsvxacvvji	19	26	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	20	1	David	David	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	2	Pile	Pile	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	20	4	Associate	Associate	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	5	Editor	Editor	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	6	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	20	7	Nature	Nature	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	8	Photonics	Photonics	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	9	ORIGINAL	original	JJ
work_pvikvih5cjhrlpfywsvxacvvji	20	10	RESEARCH	research	NN
work_pvikvih5cjhrlpfywsvxacvvji	20	11	PAPERS	PAPERS	NNPS
work_pvikvih5cjhrlpfywsvxacvvji	20	12	Garnett	Garnett	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	13	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	20	14	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	15	C.	C.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	16	M.	M.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	17	Colours	Colours	NNP
work_pvikvih5cjhrlpfywsvxacvvji	20	18	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	20	19	metal	metal	NN
work_pvikvih5cjhrlpfywsvxacvvji	20	20	glasses	glass	NNS
work_pvikvih5cjhrlpfywsvxacvvji	20	21	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	20	22	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	20	23	metallic	metallic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	20	24	films	film	NNS
work_pvikvih5cjhrlpfywsvxacvvji	20	25	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	21	1	Philos	Philos	NNP
work_pvikvih5cjhrlpfywsvxacvvji	21	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	22	1	Trans	tran	NNS
work_pvikvih5cjhrlpfywsvxacvvji	22	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	23	1	R.	R.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	23	2	Soc	Soc	NNP
work_pvikvih5cjhrlpfywsvxacvvji	23	3	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	24	1	Lond	lond	NN
work_pvikvih5cjhrlpfywsvxacvvji	24	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	25	1	A	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	25	2	203	203	CD
work_pvikvih5cjhrlpfywsvxacvvji	25	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	25	4	385–420	385–420	CD
work_pvikvih5cjhrlpfywsvxacvvji	25	5	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	25	6	1904	1904	CD
work_pvikvih5cjhrlpfywsvxacvvji	25	7	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	25	8	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	9	Mie	Mie	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	10	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	25	11	G.	G.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	12	Beirträge	Beirträge	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	13	zur	zur	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	14	Optik	Optik	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	15	trüber	trüber	NN
work_pvikvih5cjhrlpfywsvxacvvji	25	16	Medien	Medien	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	17	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	25	18	speziell	speziell	JJ
work_pvikvih5cjhrlpfywsvxacvvji	25	19	kolloidaler	kolloidaler	NN
work_pvikvih5cjhrlpfywsvxacvvji	25	20	Metallosungen	Metallosungen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	25	21	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	26	1	Ann	Ann	NNP
work_pvikvih5cjhrlpfywsvxacvvji	26	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	27	1	Phys	phys	NN
work_pvikvih5cjhrlpfywsvxacvvji	27	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	28	1	25	25	CD
work_pvikvih5cjhrlpfywsvxacvvji	28	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	28	3	37	37	CD
work_pvikvih5cjhrlpfywsvxacvvji	28	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	28	5	1908	1908	CD
work_pvikvih5cjhrlpfywsvxacvvji	28	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	28	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	28	8	Kretschmann	Kretschmann	NNP
work_pvikvih5cjhrlpfywsvxacvvji	28	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	28	10	E.	E.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	28	11	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	28	12	Reather	Reather	NNP
work_pvikvih5cjhrlpfywsvxacvvji	28	13	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	28	14	H.	H.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	28	15	Radiative	radiative	JJ
work_pvikvih5cjhrlpfywsvxacvvji	28	16	decay	decay	NN
work_pvikvih5cjhrlpfywsvxacvvji	28	17	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	28	18	nonradiative	nonradiative	JJ
work_pvikvih5cjhrlpfywsvxacvvji	28	19	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	28	20	plasmon	plasmon	NN
work_pvikvih5cjhrlpfywsvxacvvji	28	21	excited	excite	VBN
work_pvikvih5cjhrlpfywsvxacvvji	28	22	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	28	23	light	light	NN
work_pvikvih5cjhrlpfywsvxacvvji	28	24	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	29	1	Z.	Z.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	29	2	Naturf	Naturf	NNP
work_pvikvih5cjhrlpfywsvxacvvji	29	3	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	30	1	23A	23a	CD
work_pvikvih5cjhrlpfywsvxacvvji	30	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	30	3	2135–2136	2135–2136	CD
work_pvikvih5cjhrlpfywsvxacvvji	30	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	30	5	1968	1968	CD
work_pvikvih5cjhrlpfywsvxacvvji	30	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	30	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	30	8	Otto	Otto	NNP
work_pvikvih5cjhrlpfywsvxacvvji	30	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	30	10	A.	a.	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	11	Excitation	excitation	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	12	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	30	13	nonradiative	nonradiative	JJ
work_pvikvih5cjhrlpfywsvxacvvji	30	14	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	15	plasma	plasma	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	16	waves	wave	NNS
work_pvikvih5cjhrlpfywsvxacvvji	30	17	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	30	18	silver	silver	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	19	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	30	20	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	30	21	method	method	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	22	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	30	23	frustrated	frustrated	JJ
work_pvikvih5cjhrlpfywsvxacvvji	30	24	total	total	JJ
work_pvikvih5cjhrlpfywsvxacvvji	30	25	reflection	reflection	NN
work_pvikvih5cjhrlpfywsvxacvvji	30	26	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	31	1	Z.	Z.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	31	2	Phys	Phys	NNP
work_pvikvih5cjhrlpfywsvxacvvji	31	3	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	32	1	216	216	CD
work_pvikvih5cjhrlpfywsvxacvvji	32	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	32	3	398–410	398–410	CD
work_pvikvih5cjhrlpfywsvxacvvji	32	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	32	5	1968	1968	CD
work_pvikvih5cjhrlpfywsvxacvvji	32	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	32	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	32	8	Fleischmann	Fleischmann	NNP
work_pvikvih5cjhrlpfywsvxacvvji	32	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	32	10	M.	M.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	32	11	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	32	12	Hendra	Hendra	NNP
work_pvikvih5cjhrlpfywsvxacvvji	32	13	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	32	14	P.	P.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	32	15	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	1	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	33	2	McQuillan	McQuillan	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	33	4	A.	A.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	5	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	6	Raman	Raman	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	7	spectra	spectra	NN
work_pvikvih5cjhrlpfywsvxacvvji	33	8	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	33	9	pyridine	pyridine	NNP
work_pvikvih5cjhrlpfywsvxacvvji	33	10	adsorbed	adsorb	VBD
work_pvikvih5cjhrlpfywsvxacvvji	33	11	at	at	IN
work_pvikvih5cjhrlpfywsvxacvvji	33	12	a	a	DT
work_pvikvih5cjhrlpfywsvxacvvji	33	13	silver	silver	JJ
work_pvikvih5cjhrlpfywsvxacvvji	33	14	electrode	electrode	NN
work_pvikvih5cjhrlpfywsvxacvvji	33	15	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	34	1	Chem	Chem	NNP
work_pvikvih5cjhrlpfywsvxacvvji	34	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	35	1	Phys	phys	NN
work_pvikvih5cjhrlpfywsvxacvvji	35	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	36	1	Lett	Lett	NNP
work_pvikvih5cjhrlpfywsvxacvvji	36	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	37	1	26	26	CD
work_pvikvih5cjhrlpfywsvxacvvji	37	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	37	3	163–166	163–166	CD
work_pvikvih5cjhrlpfywsvxacvvji	37	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	37	5	1974	1974	CD
work_pvikvih5cjhrlpfywsvxacvvji	37	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	37	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	8	Jeanmarie	Jeanmarie	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	37	10	D.	D.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	11	L.	L.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	12	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	37	13	Van	Van	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	14	Duyne	Duyne	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	15	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	37	16	R.	R.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	17	P.	P.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	18	Surface	Surface	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	19	Raman	Raman	NNP
work_pvikvih5cjhrlpfywsvxacvvji	37	20	spectroelectrochemistry	spectroelectrochemistry	NN
work_pvikvih5cjhrlpfywsvxacvvji	37	21	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	38	1	Part	Part	NNP
work_pvikvih5cjhrlpfywsvxacvvji	38	2	I.	I.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	38	3	Heterocyclic	Heterocyclic	NNP
work_pvikvih5cjhrlpfywsvxacvvji	38	4	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	38	5	aromatic	aromatic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	38	6	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	38	7	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	38	8	aliphatic	aliphatic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	38	9	amines	amine	NNS
work_pvikvih5cjhrlpfywsvxacvvji	38	10	adsorbed	adsorb	VBN
work_pvikvih5cjhrlpfywsvxacvvji	38	11	on	on	IN
work_pvikvih5cjhrlpfywsvxacvvji	38	12	the	the	DT
work_pvikvih5cjhrlpfywsvxacvvji	38	13	anodized	anodized	JJ
work_pvikvih5cjhrlpfywsvxacvvji	38	14	silver	silver	NN
work_pvikvih5cjhrlpfywsvxacvvji	38	15	electrode	electrode	NNP
work_pvikvih5cjhrlpfywsvxacvvji	38	16	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	39	1	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	39	2	Electroanal	Electroanal	NNP
work_pvikvih5cjhrlpfywsvxacvvji	39	3	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	40	1	Chem	Chem	NNP
work_pvikvih5cjhrlpfywsvxacvvji	40	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	41	1	84	84	CD
work_pvikvih5cjhrlpfywsvxacvvji	41	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	3	1–20	1–20	CD
work_pvikvih5cjhrlpfywsvxacvvji	41	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	41	5	1977	1977	CD
work_pvikvih5cjhrlpfywsvxacvvji	41	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	41	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	8	Ebbesen	Ebbesen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	10	T.	T.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	11	W.	W.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	12	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	13	Lezec	Lezec	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	14	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	15	H.	H.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	16	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	17	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	18	Ghaemi	Ghaemi	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	19	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	20	H.	H.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	21	F.	F.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	22	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	23	Thio	Thio	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	24	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	25	T.	T.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	26	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	41	27	Wolf	Wolf	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	28	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	41	29	P.	P.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	41	30	A.	a.	NN
work_pvikvih5cjhrlpfywsvxacvvji	42	1	Extraordinary	extraordinary	JJ
work_pvikvih5cjhrlpfywsvxacvvji	42	2	optical	optical	JJ
work_pvikvih5cjhrlpfywsvxacvvji	42	3	transmission	transmission	NN
work_pvikvih5cjhrlpfywsvxacvvji	42	4	through	through	IN
work_pvikvih5cjhrlpfywsvxacvvji	42	5	sub	sub	NN
work_pvikvih5cjhrlpfywsvxacvvji	42	6	-	-	JJ
work_pvikvih5cjhrlpfywsvxacvvji	42	7	wavelength	wavelength	JJ
work_pvikvih5cjhrlpfywsvxacvvji	42	8	hole	hole	NN
work_pvikvih5cjhrlpfywsvxacvvji	42	9	arrays	array	NNS
work_pvikvih5cjhrlpfywsvxacvvji	42	10	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	43	1	Nature	nature	NN
work_pvikvih5cjhrlpfywsvxacvvji	43	2	391	391	CD
work_pvikvih5cjhrlpfywsvxacvvji	43	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	43	4	667–669	667–669	CD
work_pvikvih5cjhrlpfywsvxacvvji	43	5	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	43	6	1998	1998	CD
work_pvikvih5cjhrlpfywsvxacvvji	43	7	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	43	8	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	9	Hirsch	Hirsch	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	10	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	43	11	L.	L.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	12	R.	R.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	13	et	et	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	14	al	al	NNP
work_pvikvih5cjhrlpfywsvxacvvji	43	15	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	44	1	Nanoshell	Nanoshell	NNP
work_pvikvih5cjhrlpfywsvxacvvji	44	2	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	44	3	mediated	mediate	VBN
work_pvikvih5cjhrlpfywsvxacvvji	44	4	near	near	RB
work_pvikvih5cjhrlpfywsvxacvvji	44	5	-	-	HYPH
work_pvikvih5cjhrlpfywsvxacvvji	44	6	infrared	infrare	VBN
work_pvikvih5cjhrlpfywsvxacvvji	44	7	thermal	thermal	JJ
work_pvikvih5cjhrlpfywsvxacvvji	44	8	therapy	therapy	NN
work_pvikvih5cjhrlpfywsvxacvvji	44	9	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	44	10	tumors	tumor	NNS
work_pvikvih5cjhrlpfywsvxacvvji	44	11	under	under	IN
work_pvikvih5cjhrlpfywsvxacvvji	44	12	magnetic	magnetic	JJ
work_pvikvih5cjhrlpfywsvxacvvji	44	13	resonance	resonance	NN
work_pvikvih5cjhrlpfywsvxacvvji	44	14	guidance	guidance	NN
work_pvikvih5cjhrlpfywsvxacvvji	44	15	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	45	1	Proc	Proc	NNP
work_pvikvih5cjhrlpfywsvxacvvji	45	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	46	1	Natl	Natl	NNP
work_pvikvih5cjhrlpfywsvxacvvji	46	2	Acad	Acad	NNP
work_pvikvih5cjhrlpfywsvxacvvji	46	3	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	47	1	Sci	Sci	NNP
work_pvikvih5cjhrlpfywsvxacvvji	47	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	48	1	USA	USA	NNP
work_pvikvih5cjhrlpfywsvxacvvji	48	2	100	100	CD
work_pvikvih5cjhrlpfywsvxacvvji	48	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	48	4	13549	13549	CD
work_pvikvih5cjhrlpfywsvxacvvji	48	5	–	–	:
work_pvikvih5cjhrlpfywsvxacvvji	48	6	13554	13554	CD
work_pvikvih5cjhrlpfywsvxacvvji	48	7	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	48	8	2003	2003	CD
work_pvikvih5cjhrlpfywsvxacvvji	48	9	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	48	10	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	48	11	Bergman	Bergman	NNP
work_pvikvih5cjhrlpfywsvxacvvji	48	12	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	48	13	D.	D.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	48	14	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	49	1	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	49	2	Stockman	Stockman	NNP
work_pvikvih5cjhrlpfywsvxacvvji	49	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	49	4	M.	M.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	49	5	I.	I.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	50	1	Surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	2	plasmon	plasmon	JJ
work_pvikvih5cjhrlpfywsvxacvvji	50	3	amplification	amplification	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	4	by	by	IN
work_pvikvih5cjhrlpfywsvxacvvji	50	5	stimulated	stimulated	JJ
work_pvikvih5cjhrlpfywsvxacvvji	50	6	emission	emission	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	7	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	50	8	radiation	radiation	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	9	:	:	:
work_pvikvih5cjhrlpfywsvxacvvji	50	10	quantum	quantum	JJ
work_pvikvih5cjhrlpfywsvxacvvji	50	11	generation	generation	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	12	of	of	IN
work_pvikvih5cjhrlpfywsvxacvvji	50	13	coherent	coherent	JJ
work_pvikvih5cjhrlpfywsvxacvvji	50	14	surface	surface	NN
work_pvikvih5cjhrlpfywsvxacvvji	50	15	plasmons	plasmon	NNS
work_pvikvih5cjhrlpfywsvxacvvji	50	16	in	in	IN
work_pvikvih5cjhrlpfywsvxacvvji	50	17	nanosystems	nanosystem	NNS
work_pvikvih5cjhrlpfywsvxacvvji	50	18	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	51	1	Phys	phys	NN
work_pvikvih5cjhrlpfywsvxacvvji	51	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	52	1	Rev.	Rev.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	53	1	Lett	Lett	NNP
work_pvikvih5cjhrlpfywsvxacvvji	53	2	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	54	1	90	90	CD
work_pvikvih5cjhrlpfywsvxacvvji	54	2	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	3	027402	027402	CD
work_pvikvih5cjhrlpfywsvxacvvji	54	4	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	54	5	2003	2003	CD
work_pvikvih5cjhrlpfywsvxacvvji	54	6	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	54	7	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	8	Bozhevolnyi	Bozhevolnyi	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	9	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	10	S.	S.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	11	I.	I.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	12	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	13	Volkov	Volkov	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	14	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	15	V.	V.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	16	S.	S.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	17	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	18	Devaux	Devaux	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	19	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	20	E.	E.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	21	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	22	Laluet	Laluet	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	23	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	54	24	J.	J.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	54	25	Y.	Y.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	55	1	&	&	CC
work_pvikvih5cjhrlpfywsvxacvvji	55	2	Ebbesen	Ebbesen	NNP
work_pvikvih5cjhrlpfywsvxacvvji	55	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	55	4	T.	T.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	55	5	W.	W.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	55	6	Channel	Channel	NNP
work_pvikvih5cjhrlpfywsvxacvvji	55	7	plasmon	plasmon	NN
work_pvikvih5cjhrlpfywsvxacvvji	55	8	subwavelength	subwavelength	NN
work_pvikvih5cjhrlpfywsvxacvvji	55	9	waveguide	waveguide	NN
work_pvikvih5cjhrlpfywsvxacvvji	55	10	components	component	NNS
work_pvikvih5cjhrlpfywsvxacvvji	55	11	including	include	VBG
work_pvikvih5cjhrlpfywsvxacvvji	55	12	interferometers	interferometer	NNS
work_pvikvih5cjhrlpfywsvxacvvji	55	13	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	55	14	ring	ring	NN
work_pvikvih5cjhrlpfywsvxacvvji	55	15	resonators	resonator	NNS
work_pvikvih5cjhrlpfywsvxacvvji	55	16	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	56	1	Nature	nature	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	2	440	440	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	3	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	56	4	508–511	508–511	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	5	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	56	6	2006	2006	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	7	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	56	8	FURTHER	further	JJ
work_pvikvih5cjhrlpfywsvxacvvji	56	9	READING	READING	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	10	Raether	Raether	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	11	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	56	12	H.	H.	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	13	Surface	Surface	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	14	Plasmons	plasmon	NNS
work_pvikvih5cjhrlpfywsvxacvvji	56	15	on	on	IN
work_pvikvih5cjhrlpfywsvxacvvji	56	16	Smooth	smooth	JJ
work_pvikvih5cjhrlpfywsvxacvvji	56	17	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	56	18	Rough	rough	JJ
work_pvikvih5cjhrlpfywsvxacvvji	56	19	Surfaces	surface	NNS
work_pvikvih5cjhrlpfywsvxacvvji	56	20	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	56	21	on	on	IN
work_pvikvih5cjhrlpfywsvxacvvji	56	22	Gratings	grating	NNS
work_pvikvih5cjhrlpfywsvxacvvji	56	23	(	(	-LRB-
work_pvikvih5cjhrlpfywsvxacvvji	56	24	Springer	Springer	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	25	Verlag	Verlag	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	26	,	,	,
work_pvikvih5cjhrlpfywsvxacvvji	56	27	1988	1988	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	28	)	)	-RRB-
work_pvikvih5cjhrlpfywsvxacvvji	56	29	M	m	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	30	I	i	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	31	L	l	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	32	E	e	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	33	S	s	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	34	T	t	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	35	O	o	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	36	N	n	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	37	E	e	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	38	2	2	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	39	0	0	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	40	Small	small	JJ
work_pvikvih5cjhrlpfywsvxacvvji	56	41	and	and	CC
work_pvikvih5cjhrlpfywsvxacvvji	56	42	beautiful	beautiful	JJ
work_pvikvih5cjhrlpfywsvxacvvji	56	43	IM	im	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	44	A	A	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	45	G	g	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	46	E	e	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	47	S	s	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	48	O	o	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	49	U	u	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	50	R	r	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	51	C	c	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	52	E	e	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	53	M	m	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	54	i	i	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	55	l	l	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	56	e	e	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	57	s	s	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	58	t	t	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	59	o	o	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	60	n	n	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	61	e	e	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	62	s	s	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	63	NATuRE	NATuRE	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	64	MILESTONES	MILESTONES	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	65	|	|	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	66	P	p	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	67	h	h	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	68	oto	oto	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	69	n	n	NN
work_pvikvih5cjhrlpfywsvxacvvji	56	70	s	s	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	71	M	M	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	72	Ay	Ay	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	73	2	2	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	74	0	0	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	75	1	1	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	76	0	0	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	77	©	©	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	78	20	20	CD
work_pvikvih5cjhrlpfywsvxacvvji	56	79	Macmillan	Macmillan	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	80	Publishers	Publishers	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	81	Limited	Limited	NNP
work_pvikvih5cjhrlpfywsvxacvvji	56	82	.	.	.
work_pvikvih5cjhrlpfywsvxacvvji	57	1	All	all	DT
work_pvikvih5cjhrlpfywsvxacvvji	57	2	rights	right	NNS
work_pvikvih5cjhrlpfywsvxacvvji	57	3	reserved10	reserved10	:
work_pvikvih5cjhrlpfywsvxacvvji	57	4	http://www.nature.com/milestones/milephotons/full/milephotons21.html	http://www.nature.com/milestones/milephotons/full/milephotons21.html	NNP