Investigation of second-harmonic generation efficiency in a waveguide-side-coupled photonic nanocavity

Kim Heungjoon; Jeon Seung-Woo; Song Bong-Shik

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Investigation of second-harmonic generation efficiency in a waveguide-side-coupled photonic nanocavity

机译：波导侧耦合光子纳米腔中二次谐波产生效率的研究

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We theoretically investigate second-harmonic generation (SHG) efficiency in a waveguide-side-coupled photonic nanocavity using coupled-mode-theory-based equations. Using an additional condition for the critical input power, we investigated SHG efficiencies at a very low input power and the critical power. At a very low input power, the SHG efficiency is enhanced by the increase in various Q factors for fundamental and SHG light. Conversely, the maximum SHG efficiency at the critical input power is determined by the Q factors for fundamental light and increases up to 50% in a waveguide-side-coupled photonic nanocavity. Our results provide a design rule for waveguide-side-coupled photonic nanocavities for developing highly efficient SHG devices. (C) 2016 Optical Society of America

机译：我们在理论上使用基于耦合模式理论的方程研究波导侧耦合光子纳米腔中的二次谐波产生（SHG）效率。使用临界输入功率的附加条件，我们研究了在非常低的输入功率和临界功率下的SHG效率。在非常低的输入功率下，通过增加基本和SHG光的各种Q因子，可以提高SHG效率。相反，临界输入功率下的最大SHG效率由基本光的Q因子决定，在波导侧耦合的光子纳米腔中，最大SHG效率提高至50％。我们的结果为开发高效SHG器件的波导侧耦合光子纳米腔提供了设计规则。（C）2016美国眼镜学会

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《Journal of the Optical Society of America, B. Optical Physics》 |2016年第9期|共5页
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Kim Heungjoon; Jeon Seung-Woo; Song Bong-Shik;
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1. Investigation of second-harmonic generation efficiency in a waveguide-side-coupled photonic nanocavity [J] . Kim Heungjoon, Jeon Seung-Woo, Song Bong-Shik Journal of the Optical Society of America, B. Optical Physics . 2016,第9期

机译：波导侧耦合光子纳米腔中二次谐波产生效率的研究
2. Second-harmonic generation in a silicon-carbide-based photonic crystal nanocavity [J] . Shota Yamada, Bong-Shik Song, Seungwoo Jeon, Optics Letters . 2014,第7期

机译：基于碳化硅的光子晶体纳米腔中的二次谐波产生
3. Enhancement of efficiency of second-harmonic generation from MoS2 monolayers in 1D Fibonacci photonic crystals [J] . Zarif F. Asadollah, Nezhad M. Khazaei, Rezaieun H. Rastegrar Moghaddam Photonics and Nanostructures: Fundamentals and Applications . 2019,第期

机译：在1D斐波纳契光子晶体中从MOS2单层产生二次谐波生成效率
4. Dependence of second-harmonic generation efficiency on the Q factor of SiC photonic crystal nanocavities [C] . H. Kim, T. Asano, B.-S. Song, 2019年第66回応用物理学会春季学術講演会講演予稿集 . 2019

机译：二次谐波产生效率对SiC光子晶体纳米腔Q因子的影响
5. Optical bistability and second-harmonic generation in thin film coupled cavity photonic crystal structures. [D] . Diao, Liyong. 2009

机译：薄膜耦合腔光子晶体结构中的光学双稳态和二次谐波产生。
6. Spatially-Controllable Hot Spots for Plasmon-Enhanced Second-Harmonic Generation in AgNP-ZnO Nanocavity Arrays [O] . Shaoxin Shen, Min Gao, Rongcheng Ban, 2018

机译：AgNP-ZnO纳米腔阵列中等离子增强二次谐波产生的空间可控热点。
7. Nonlinear Optical Properties of Core-Shell Nanocavities for Enhanced Second-Harmonic Generation [O] . Pu Ye, Grange Rachel, Hsieh Chia-Lung, 2010

机译：核壳纳米腔增强二次谐波产生的非线性光学性质

Investigation of second-harmonic generation efficiency in a waveguide-side-coupled photonic nanocavity

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