Phase-Matched Mid-Infrared Difference Frequency Generation Using a Nanostructured Gallium Arsenide Metamaterial With Nanoholes

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Phase-Matched Mid-Infrared Difference Frequency Generation Using a Nanostructured Gallium Arsenide Metamaterial With Nanoholes

机译：使用纳米孔的相匹配的中红外差异频率产生，纳米孔

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Phase-matched wavelength conversion is achieved in difference frequency generation (DFG) in a structure of gallium arsenide (GaAs) with periodic arrays of nanoholes. Linear properties (refractive indices) of the structure are determined from the S-parameters of the structure. Finite difference time domain (FDTD) simulation is used to calculate the S-parameters. The longest wavelength achieved is 16.2229 mu m and the shortest is 3.2961 mu m. The results of the FDTD simulation are compared with results obtained from the effective medium theory by using the Maxwell Garnett model. The comparison shows excellent agreement.

机译：相匹配的波长转换是在砷化镓（GaAs）结构中的差频生成（DFG）的差异频率产生（DFG），具有周期阵列的纳米孔阵列。结构的线性特性（折射率）由结构的S参数确定。有限差分时域（FDTD）仿真用于计算S参数。所达到的最长波长是16.2229 mu m，最短的是3.2961 mu m。将FDTD模拟的结果与使用Maxwell Garnett模型的有效介质理论获得的结果进行了比较。比较显示了良好的一致性。

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《International journal of applied mechanics》 |2020年第3期|共10页
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正文语种 eng
中图分类应用力学;
关键词
Nonlinear wave mixing; metamaterials; phase matching; nanostructure;

机译：非线性波混合;超材料;相位匹配;纳米结构;

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1. Phase-Matched Mid-Infrared Difference Frequency Generation Using a Nanostructured Gallium Arsenide Metamaterial With Nanoholes [J] . International journal of applied mechanics . 2020,第3期

机译：使用纳米孔的相匹配的中红外差异频率产生，纳米孔
2. Generation of difference-frequency radiation in the far- and mid-IR ranges in a two-chip laser based on gallium arsenide on a germanium substrate [J] . Aleshkin VY, Dubinov AA Quantum electronics . 2008,第9期

机译：在锗衬底上的基于砷化镓的两芯片激光器中，在远红外和中红外范围内产生差频辐射
3. Difference frequency generation in the mid-infrared with orientation-patterned gallium phosphide crystals [J] . Insero Giacomo, Clivati Cecilia, DAmbrosio Davide, Optics Letters . 2016,第21期

机译：中红外磷化镓晶体中红外线差频产生
4. Performance characterization of mid-infrared difference frequency generation in orientation-patterned gallium phosphide [C] . Junxiong Wei, S. Chaitanya Kumar, Hanyu Ye, Nonlinear Frequency Generation and Conversion: Materials and Devices XVII . 2018

机译：定向图案化磷化镓中红外差频产生的性能表征
5. THE GENERATION OF STEP-TUNABLE FAR INFRARED RADIATION BY PHASE-MATCHED DIFFERENCE FREQUENCY MIXING IN PLANAR DIELECTRIC WAVEGUIDES. [D] . THOMPSON, DAVID EDWARD. 1974

机译：平面电介质波导中相位匹配的差分频率混合产生可逐步调谐的远红外辐射。
6. Direct visualization of phase-matched efficient second harmonic and broadband sum frequency generation in hybrid plasmonic nanostructures [O] . Zhe Li, Brian Corbett, Agnieszka Gocalinska, 2020

机译：混合等离子体纳米结构中相位匹配有效的第二谐波和宽带和频率产生的直接可视化
7. Phase-matched mid-infrared difference frequency generation in GaAs-based waveguides [O] . Fiore, A Andrea, Berger, V, Rosencher, E, 1997

机译：基于GaAs的波导中的相位匹配中红外差频产生

Phase-Matched Mid-Infrared Difference Frequency Generation Using a Nanostructured Gallium Arsenide Metamaterial With Nanoholes

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