Numerical investigation of highly efficient and tunable terahertz-wave generation using a low-group-velocity and low-dispersion two-dimensional GaAs photonic crystal waveguide

Nakahama Teruyuki; Ozaki Nobuhiko; Oda Hisaya; Ikeda Naoki; Sugimoto Yoshimasa

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Numerical investigation of highly efficient and tunable terahertz-wave generation using a low-group-velocity and low-dispersion two-dimensional GaAs photonic crystal waveguide

机译：低血管速度高效和低分散二维GaAs光子晶体波导的高效和可调太赫兹波生成的数值研究

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Efficient terahertz (THz)-wave generation via difference frequency generation (DFG) in a GaAs-based two-dimensional photonic crystal waveguide (PhC-WG) was proposed and investigated through numerical simulations. A PhC-WG with a low-group-velocity and low-dispersion mode (LVLD PhC-WG) was designed, and THz-DFG spanning sub- to several THz in frequency was obtained. Electric field enhancement and phase-matching between two fundamental light pulses in the LVLD PhC-WG generated THz-DFG approximately 280 times that in a GaAs strip waveguide. This method is applicable to highly efficient and tunable small-footprint THz-emitting devices based on semiconductor materials.

机译：通过数值模拟提出并研究了基于GaAs的二维光子晶体波导（PHC-WG）中的差异频率产生（DFG）的高效频率产生（DFG）。设计了具有低组速度和低分散模式（LVLD PHC-WG）的PHC-WG，并获得了频率的THz-DFG跨越几个THz。 LVLD PHC-WG中的两个基本光脉冲之间的电场增强和相位匹配产生的THz-DFG大约280次在GaAs条带波导中。该方法适用于基于半导体材料的高效和可调的小型占地面积Thz发射器件。

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来源
《Japanese journal of applied physics》 |2020年第9期|090903.1-090903.7|共7页
作者
Nakahama Teruyuki; Ozaki Nobuhiko; Oda Hisaya; Ikeda Naoki; Sugimoto Yoshimasa;
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作者单位

Wakayama Univ Fac Syst Engn Wakayama 6408510 Japan;

Wakayama Univ Fac Syst Engn Wakayama 6408510 Japan;

Chitose Inst Sci & Technol Chitose Hokkaido 0668655 Japan;

Natl Inst Mat Sci Tsukuba Ibaraki 3050047 Japan;

Natl Inst Mat Sci Tsukuba Ibaraki 3050047 Japan;

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正文语种 eng
中图分类
关键词
THz source; Photonic crystal waveguide; Difference frequency generation; Semiconductor materials;

机译：THZ源;光子晶体波导;差频生成;半导体材料;

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Numerical investigation of highly efficient and tunable terahertz-wave generation using a low-group-velocity and low-dispersion two-dimensional GaAs photonic crystal waveguide

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