基于表面等离子体的非线性二次谐波增强效应被引量：2

Enhanced Second-harmonic Generation Based on Surface Plasmons

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摘要本文研究一种利用金属光栅结构激发表面等离子体,实现增强非线性二次谐波激发效率的方法。通过设计金属光栅周期、沟槽深度等结构参数,使其满足推导出的准相位匹配条件,实现泵浦光与倍频光的表面等离子体模式同时共振激发,得到高效输出的倍频光。文中利用时域有限差分方法对该方法进行了模拟仿真,验证了准相位匹配条件和共振激发表面等离子体模式对提高二次谐波输出的关键性作用,同时分析了光栅结构参数变化对二次谐波激发效率的影响规律。 A metallic grating structure which can enhance Second-harmonic Generation （SHG） based on exciting Surface Plasmons （SP） is studied. By designing the structure parameters of the metallic grating with quasi phase matching condition, the SP of the fundamental mode and the second-harmonic mode can be excited simultaneously, which considerably enhance the efficiency of SHG emission. Numerical simulation for SHG behaviors of designed structures were performed by using the Finite Difference-time Domain Method （FDTD） and the results showed that the quasi-phase-match condition and the excited SP mode made a key role for enhancing the efficiency of SHG. Moreover, the effect of the structure parameters of the metallic grating on SHG emission was analyzed.

作者甘大春王长涛方亮刘凯鹏罗先刚

机构地区中国科学院光电技术研究所微细加工光学技术国家重点实验室

出处《光电工程》 CAS CSCD 北大核心 2011年第1期44-48,共5页 Opto-Electronic Engineering

基金国家自然科学基金面上项目(60778018)

关键词表面等离子体(SP) 金属光栅结构二次谐波准相位匹配 surface plasmons metallic grating structure second-harmonic generation quasi-phase-match

分类号 O437 [机械工程—光学工程]

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参考文献8

1Robertw Boyd. Nonlinear optics [M]. New York: Elserier Science and Technology Bo, 2009: 74-105.
2John D Joannnopoulos, Steven G Johnson, Joshua NWinn, et al. Photonic Crystals molding the flow of light [M]. PRINCETON: PRINCETON UNIVERSITY PRESS, 2008: 66-92.
3Trull J, Vilaseca R. Second-harmonic generation in local modes of a truncated periodic structure [J]. OPTICS LETTERS(S1673-1905), 1995, 20: 1746-1748.
4LUO Xian-gang, Teruya Ishihara. Engineered second harmonic generation in photonic-crystal slabs consisting of centrosymmetric materials [J]. Adv funct Mater(S1616-301X), 2004, 9: 905-911.
5LUO Xian-gang, Teruya Ishihara. Simultaneous second-harmonic generation and third-harmonic generation in one-dimensional photonic crYstal slabs consisting of centrosymmetric materials [J]. Optical Materials(S0925-3467), 2005, 27::/13-717.
6Robert T Deck, Grygier R K. Surface-plasmon enhanced harmonic generation at a rough metal surface [J]. APPLIED OPTICS(S0003-6935), 1984, 23: 2302-2313.
7O'Donnell K A. Observations of second-harmonic generation from randomly rough metal surfaces [J]. PHYSICAL REVIEW B(S0163-1829), 1997, 55: 7985-7992.
8Mark I Stockman, David J Bergman, Cristelle Anceau, et al. Enhanced Second-Harmonic Generation by Metal Surfaces with Nanoscale Roughness: Nanoscale Dephasing, Depolarization, and Correlations [J]. Physical Review Letters(S0031-9007), 2004, 92: 057402.

同被引文献34

1陈泳屹,秦莉,佟存柱,王立军,宁永强,刘云,汪丽杰,张金龙,单肖楠.一种基于布拉格反射波导的表面等离子体激光光源(英文)[J].发光学报,2013,34(10):1351-1357. 被引量：2
2陈云琳,袁建伟,闫卫国,周斌斌,罗勇锋,郭娟.准相位匹配PPLN倍频理论研究与优化设计[J].物理学报,2005,54(5):2079-2083. 被引量：15
3MATSUMOTO S, LIM E, FEJER M, et al. Quasiphase-matched Second Harmonic Generation of Blue Light in Electrically Periodically-poled Lithium Yantalate Waveguides [J]. Electron. Lett(S0013-5194), 1991, 27(22): 2040-2042.
4YAMADA M, NADA N, SAITOH M, et al. First-order Quasi-phase Matched LiNbO3 Waveguide Periodically Poled by Applying an External Field for Efficient Blue Second-harmonic Generation [J]. Appl.Phys.Lett(S0003-6951), 1993, 62(5): 435-436.
5MILLER G D, BATCHKO R G, FEJER M M, et al. Visible Quasi-phase-matched Harmonic Generation by Electric-field-poled LithiumNiobate [J]. Proc.ofSPIE(S0277-786X), 1996, 2700: 34-45.
6MILLER G D, BATCHKO R G, TULLOCH W M, et al. 42%-efficient Single-pass CW Second-harmonic Generation in Periodically Poled Lithium Niobate [J]. Optics Letters(S0146-9592), 1997, 22(24): 1834-1836.
7WANG T, MA B, SHENG Y, et al. Large Angle Acceptance of Quasi-phase-matched Second Harmonic Generation in a Homocentrically Poled LiNbO3 [J]. Optics Communications(S0030-4018), 2005, 252: 397-401.
8BOUCHIER A, LUCAS-LECLIN G, GEORGES P, et al. Frequency Doubling of an Efficient Continuous Wave Single-mode Yb-doped Fiber Laser at 978nm in a Periodically-poled MgO: LiNbO3 Waveguide [J]. Optics Express(S 1094-4087), 2005, 13(18): 6974-6979.
9PASCHOTTA R, COLLETT M, KURZ P, et al. Bright Squeezed Light from a Singly Resonant Frequency Doubler [J]. Physical review letters(S0031-9007), 1994, 72(24): 3807-3810.
10PERRONE M R, TUNDO S, PANZERA C, et al. Beam-divergence Control of Excimers with Plane-parallel Gaussian Cavities [J]. Applied Optics(S0003-6935), 1997, 36(33): 8574-8581.

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2周永光,李民权,潘旭,沈纯纯,李玄玄.一种新型金属光栅结构透射增强特性研究[J].光通信技术,2017,41(3):33-35.
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4张伟力.Transmission Properties of THz Radiation Pulses through Very Deep Zero-Order Metallic Gratings[J].Chinese Physics Letters,2005,22(7):1821-1824. 被引量：2
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8郑俊娟.电介质球腔体模式与金属表面模式的共振吸收[J].江西师范大学学报（自然科学版）,2010,34(2):152-156.
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