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Nano Reviews & Experiments Volume 8, 2017 - Issue 1
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Review Article

Nonlinear optics on nano/micro-hierarchical structures on metals: focus on symmetric and plasmonic effects

Yoichi OgataThe Institute of Optics, University of Rochester, Rochester, NY, USACorrespondence[email protected] [email protected]
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&
Chunlei GuoThe Institute of Optics, University of Rochester, Rochester, NY, USAView further author information
Article: 1339545 | Received 14 Mar 2017, Accepted 29 May 2017, Published online: 02 Jul 2017

References

  • Liu S, Sinclair MB, Saravi S, et al. Resonantly enhanced second-harmonic generation using III–V semiconductor all-dielectric metasurfaces. Nano Lett. 2016;16(9):1–19.
  • Boyd RW. Nonlinear optics. 3rd ed. Amsterdam: Elsevier Inc; 2008.
  • Shen YR. The principles of nonlinear optics. New York: J. Wiley & Sons; 1984.
  • Johnson JC, Yan H, Schaller RD, et al. Near-field imaging of nonlinear optical mixing in single zinc oxide nanowires. Nano Lett. 2002;2(4):279–283.
  • Ogata Y, Anh Tuan N, Miyauchi Y, et al. Optical second harmonic generation from Pt nanowires with boomerang-like cross-sectional shapes. J Appl Phys. 2011;110(4):044301.
  • Ogata Y, Tuan NA, Takase S, et al. Polarization and azimuthal angle dependence of the optical second harmonic generation from Pt nanowires on the MgO (110) faceted template. Surf Interface Anal. 2010;42(10‐11):1663–1666.
  • Holmberg VC, Bogart TD, Chockla AM, et al. Optical properties of silicon and germanium nanowire fabric. J Phys Chem C. 2012;116(42):22486–22491.
  • Liu ZW, Wei QH, Zhang X. Surface plasmon interference nanolithography. Nano Lett. 2005;5(5):957–961.
  • Chen R, Crankshaw S, Tran T, et al. Second-harmonic generation from a single wurtzite GaAs nanoneedle. Appl Phys Lett. 2010;96(5):051110.
  • Zhang Y, Grady NK, Ayala-Orozco C, et al. Three-dimensional nanostructures as highly efficient generators of second harmonic light. Nano Lett. 2011;11(12):5519–5523.
  • Das SK, Bock M, O’Neill C, et al. Efficient second harmonic generation in ZnO nanorod arrays with broadband ultrashort pulses. Appl Phys Lett. 2008;93(18):181112.
  • Ogata Y, Mizutani G. Absolute second order nonlinear susceptibility of Pt nanowire arrays on MgO faceted substrates with various cross-sectional shapes. Appl Phys Lett. 2013;103(9):093107.
  • Lesuffleur A, Kumar LK, Gordon R. Enhanced second harmonic generation from nanoscale double-hole arrays in a gold film. Appl Phys Lett. 2006;88(26):261104.
  • Farias GA, Maradudin AA. Second-harmonic generation in reflection from a metallic grating. Phys Rev B. 1984;30(6):3002.
  • Lee KJ, Parmigiani F, Liu S, et al. Phase sensitive amplification based on quadratic cascading in a periodically poled lithium niobate waveguide. Opt Express. 2009;17(22):20393–20400.
  • Foster MA, Turner AC, Lipson M, et al. Nonlinear optics in photonic nanowires. Opt Express. 2008;16(2):1300–1320.
  • Valev VK, Silhanek AV, Gillijns W, et al. Plasmons reveal the direction of magnetization in nickel nanostructures. ACS Nano. 2010;5(1):91–96.
  • Piccione B, Aspetti CO, Cho CH, et al. Tailoring light–matter coupling in semiconductor and hybrid-plasmonic nanowires. Rep Prog Phys. 2014;77(8):086401.
  • Stockman MI, Bergman DJ, Anceau C, et al. Enhanced second-harmonic generation by metal surfaces with nanoscale roughness: nanoscale dephasing, depolarization, and correlations. Phys Rev Lett. 2004;92(5):057402.
  • Link S, El-Sayed MA. Spectral properties and relaxation dynamics of surface plasmon electronic oscillations in gold and silver nanodots and nanorods. Phys Chem B. 1999;103(40):8410–8426.
  • Quail JC, Simon HJ. Second-harmonic generation from a silver grating with surface plasmons. JOSA B. 1988;5(2):325–329.
  • Pipino AC, Van Duyne RP, Schatz GC. Surface-enhanced second-harmonic diffraction: experimental investigation of selective enhancement. Phys Rev B. 1996;53(7):4162.
  • Baida H, Mongin D, Christofilos D, et al. Ultrafast nonlinear optical response of a single gold nanorod near its surface plasmon resonance. Phys Rev Lett. 2011;107(5):057402.
  • Hubert C, Billot L, Adam PM, et al. Role of surface plasmon in second harmonic generation from gold nanorods. Appl Phys Lett. 2007;90(18):181105.
  • Vorobyev AY, Guo C. Effects of nanostructure-covered femtosecond laser-induced periodic surface structures on optical absorptance of metals. Appl Phys A Mater Sci Process. 2007;86(3):321–324.
  • Vorobyev AY, Makin VS, Guo C. Periodic ordering of random surface nanostructures induced by femtosecond laser pulses on metals. J Appl Phys. 2007;101(3):034903.
  • Hwang TY, Vorobyev AY, Guo C. Surface-plasmon-enhanced photoelectron emission from nanostructure-covered periodic grooves on metals. Phys Rev B. 2009;79(8):085425.
  • Raether H. Surface plasmons on smooth and rough surfaces and on gratings. Berlin Heidelberg: Springer-Verlag; 1988.
  • Walsh GF, Dal Negro L. Enhanced second harmonic generation by photonic–plasmonic Fano-type coupling in nanoplasmonic arrays. Nano Lett. 2013;13(7):3111–3117.
  • Linnenbank H, Grynko Y, Förstner J, et al. Second harmonic generation spectroscopy on hybrid plasmonic/dielectric nanoantennas. Light Sci Appl. 2016;5(1):e16013.
  • Gopinath A, Boriskina SV, Premasiri WR, et al. Plasmonic nanogalaxies: multiscale aperiodic arrays for surface-enhanced Raman sensing. Nano Lett. 2009;9(11):3922–3929.
  • Butet J, Duboisset J, Bachelier G, et al. Optical second harmonic generation of single metallic nanoparticles embedded in a homogeneous medium. Nano Lett. 2010;10(5):1717–1721.
  • Luong N, Cheng CW, Shih MH, et al. Phase matching for surface plasmon enhanced second harmonic generation in a gold grating slab. Appl Phys Lett. 2012;100(18):181107.
  • Ogata Y, Vorobyev A, Guo C. Symmetry‐sensitive plasmonic enhancement of nonlinear optical intensity in nano‐micro hierarchical structures on silver. Surf Interface Anal. 2016;48(11):1108–1113.
  • Ogata Y. Optical second harmonic generation from nanostructure-covered micro-cubes on nickel. Opt Mater Express. 2016;6(5):1520–1529.
  • Huang M, Zhao FL, Jia TQ, et al. A uniform 290 nm periodic square structure on ZnO fabricated by two-beam femtosecond laser ablation. Nanotechnology. 2007;18(50):505301.
  • Hollis DB. Review of hyper-Rayleigh and second-harmonic scattering in minerals and other inorganic solids. Am Mineralogist. 1988;73(7–8):701–706.
  • Gomopoulos N, Lütgebaucks C, Sun Q, et al. Label-free second harmonic and hyper Rayleigh scattering with high efficiency. Opt Express. 2013;21(1):815–821.
  • Vance FW, Lemon BI, Hupp JT. Enormous hyper-Rayleigh scattering from nanocrystalline gold particle suspensions. J Phys Chem B. 1998;102(50):10091–10093.
  • Hao EC, Schatz GC, Johnson RC, et al. Hyper-Rayleigh scattering from silver nanoparticles. J Chem Phys. 2002;117(13):5963–5966.
  • Campo J, Desmet F, Wenseleers W, et al. Highly sensitive setup for tunable wavelength hyper-Rayleigh scattering with parallel detection and calibration data for various solvents. Opt Express. 2009;17(6):4587–4604.
  • Kuladeep R, Dar MH, Deepak KL, et al. Ultrafast laser induced periodic sub-wavelength aluminum surface structures and nanoparticles in air and liquids. J Appl Phys. 2014;116(11):113107.
  • Ordal MA, Long LL, Bell RJ, et al. Optical properties of the metals al, co, cu, au, fe, pb, ni, pd, pt, ag, ti, and w in the infrared and far infrared. Appl Opt. 1983;22(7):1099–1119.
  • Tuan NA, Mizutani G. Metal-interface second harmonic generation from Pt/Cu bimetallic nanowire arrays on NaCl (110) faceted templates. E-J Surf Sci Nanotechnol. 2009;7:831–835.
  • Maradudin AA, Mills DL. Scattering and absorption of electromagnetic radiation by a semi-infinite medium in the presence of surface roughness. Phys Rev B. 1975;11(4):1392.
  • Stockman MI. Giant fluctuations of second harmonic generation on nanostructured surfaces. Chem Phys. 2005;318(1):156–162.
  • Lamprecht B, Leitner A, Aussenegg FR. SHG studies of plasmon dephasing in nanoparticles. Appl Phys B Lasers Opt. 1999;68(3):419–423.
  • Li K, Stockman MI, Bergman DJ. Enhanced second harmonic generation in a self-similar chain of metal nanospheres. Phys Rev B. 2005;72(15):153401.
  • Valev VK, Zheng X, Biris CG, et al. The origin of second harmonic generation hotspots in chiral optical metamaterials [Invited]. Opt Mater Express. 2011;1(1):36–45.
  • Toroghi S, Kik PG. Cascaded plasmon resonant field enhancement in nanoparticle dimers in the point dipole limit. Appl Phys Lett. 2012;100(18):183105.
  • Wang FX, Rodríguez FJ, Albers WM, et al. Surface and bulk contributions to the second-order nonlinear optical response of a gold film. Phys Rev B. 2009;80(23):233402.
  • Zheng W, Liu X, Hanbicki AT, et al. Nonlinear magneto-plasmonics. Opt Mater Express. 2015;5(11):2597–2607.
  • Dadap JI, Shan J, Eisenthal KB, et al. Second-harmonic Rayleigh scattering from a sphere of centrosymmetric material. Phys Rev Lett. 1999;83(20):4045.

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