Enhanced nonlinearity for filamentation in gold-nanoparticle-doped water
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摘要
We report a universal approach based on the surface plasmon resonances(SPRs) attained in filamentation in water doped with gold nanoparticles for enhancing the nonlinear refractive index. The filament-induced supercontinuum spectrum in water overlaps with SPRs of gold nanospheres, which further leads to a modification on the Kerr nonlinear refractive index. In our experiment, the measured nonlinear refractive index(n_2) in water doped with gold nanoparticles increases by six times, as compared with that in pure water. Such enhancement may be useful for filament-induced nonlinear applications with modest incident intensity.
We report a universal approach based on the surface plasmon resonances(SPRs) attained in filamentation in water doped with gold nanoparticles for enhancing the nonlinear refractive index. The filament-induced supercontinuum spectrum in water overlaps with SPRs of gold nanospheres, which further leads to a modification on the Kerr nonlinear refractive index. In our experiment, the measured nonlinear refractive index(n_2) in water doped with gold nanoparticles increases by six times, as compared with that in pure water. Such enhancement may be useful for filament-induced nonlinear applications with modest incident intensity.
We report a universal approach based on the surface plasmon resonances(SPRs) attained in filamentation in water doped with gold nanoparticles for enhancing the nonlinear refractive index. The filament-induced supercontinuum spectrum in water overlaps with SPRs of gold nanospheres, which further leads to a modification on the Kerr nonlinear refractive index. In our experiment, the measured nonlinear refractive index(n_2) in water doped with gold nanoparticles increases by six times, as compared with that in pure water. Such enhancement may be useful for filament-induced nonlinear applications with modest incident intensity.
引文
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3.A.Brodeur and S.L.Chin,Phys.Rev.Lett.80,4406(1998).
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9.M.Kolesik,E.Wright,and J.Moloney,Phys.Rev.Lett.92,107(2004).
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21.J.Ye,G.Chang,T.Norris,C.Tse,M.Zohdy,K.Hollman,M.Donnell,and J.Baker,Opt.Lett.29,2136(2004).
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28.S.Lal,S.Link,and N.Halas,Nat.Photon.1,641(2007).
29.L.Novotny and N.van Hulst,Nat.Photon.5,83(2011).
30.C.Wang,Y.Fu,Z.Zhou,Y.Cheng,and Z.Xu,Appl.Phys.Lett.90,181119(2007).
31.R.Driben,A.Husakou,and J.Herrmann,Opt.Lett.34,2132(2009).
32.P.Vasa,M.Singh,R.Bernard,A.Dharmadhikari,J.Dharmadhikari,and D.Mathur,Appl.Phys.Lett.103,111109(2013).
33.W.Liu and S.Chin,Opt.Express 13,5750(2005).
34.H.Li,W.Chu,H.Zang,H.Xu,Y.Cheng,and S.L.Chin,Opt.Express 24,3424(2016).
35.F.Vidal and T.Johnston,Phys.Rev.Lett.77,1282(1996).
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37.G.Fibich and B.Ilan,Opt.Lett.26,840(2001).
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