Optical Properties of Au-Based and Pt-Based Alloys for Infrared Device Applications: A Combined First Principle and Electromagnetic Simulation Study

Min-Hsueh Chiu; Jia-Han Li; Tadaaki Nagao

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Optical Properties of Au-Based and Pt-Based Alloys for Infrared Device Applications: A Combined First Principle and Electromagnetic Simulation Study

机译：红外器件应用的金基和铂基合金的光学性质：第一原理和电磁仿真研究的结合

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Due to the rapid progress in MEMS-based infrared emitters and sensors, strong demand exists for suitable plasmonic materials for such microdevices. We examine the possibility of achieving this goal by alloying other metals with the noble metals Au and Pt, which have some drawbacks, such as low melting point, structural instability, and high costs. The six different metals (Ir, Mo, Ni, Pb, Ta, and W) which possess good properties for heat resistance, stability, and magnetism are mixed with noble metals to improve the properties. The optical properties are calculated by density functional theory and they are used for further investigations of the optical responses of alloy nanorods. The results show that the studied alloy nanorods have wavelength selective properties and can be useful for infrared devices and systems.

机译：由于基于MEMS的红外发射器和传感器的快速发展，强烈需要用于这种微型设备的等离子体材料。我们研究了通过将其他金属与贵金属Au和Pt合金化来实现这一目标的可能性，这些金属具有一些缺点，例如低熔点，结构不稳定性和高成本。将具有良好耐热性，稳定性和磁性的六种不同金属（Ir，Mo，Ni，Pb，Ta和W）与贵金属混合以改善性能。通过密度泛函理论计算光学性质，并将其用于进一步研究合金纳米棒的光学响应。结果表明，所研究的合金纳米棒具有波长选择特性，可用于红外设备和系统。

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《Micromachines》 |2019年第1期|共20页
作者
Min-Hsueh Chiu; Jia-Han Li; Tadaaki Nagao;
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中图分类电工技术;
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alloyinfrared devicegoldplatinumpermittivityquality factorfirst principle;

机译：合金红外器件金铂电容率质量因子第一原理;

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2. Simulations of infrared and optical rectification by geometrically asymmetric metal–vacuum–metal junctions for applications in energy conversion devices [J] . AMayer, M S Chung, B L Weiss, Nanotechnology . 2010,第14期

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7. Optical Properties of Au-Based and Pt-Based Alloys for Infrared Device Applications: A Combined First Principle and Electromagnetic Simulation Study [O] . Min-Hsueh Chiu, Jia-Han Li, Tadaaki Nagao 2019

机译：用于红外装置应用的基于AU和PT基合金的光学性能：组合的第一原理和电磁仿真研究

Optical Properties of Au-Based and Pt-Based Alloys for Infrared Device Applications: A Combined First Principle and Electromagnetic Simulation Study

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