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