光子和电子冷却

R. Epstein
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引用次数: 0

摘要

热管理通常被认为是机械工程领域,实际上为光子学和电子学提供了令人兴奋的机会。本讲座将介绍洛斯阿拉莫斯国家实验室和新墨西哥大学在光学制冷和薄膜电热机方面的研究。在光学制冷中,目标是通过反斯托克斯发光将固体(通常是稀土掺杂玻璃和晶体或直接带隙半导体)冷却到低温。到目前为止,最好的结果是将Yb:YLF晶体从室温冷却到155 K。薄膜热机使用夹在两个薄膜热开关之间的一层电热材料来提供接近室温的冷却或从热流中提取电能。有了基于液晶的热开关,薄膜热机应该可以与热电设备竞争。有了更有效的热开关,薄膜热机可能与蒸汽压缩装置相媲美。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photonic and electronic cooling
Thermal management, which is usually regarded as the domain of mechanical engineering, actually offers exciting opportunities for photonics and electronics. This talk will describe research at Los Alamos National Laboratory and at the University of New Mexico on optical refrigeration and on thin-film electrocaloric heat engines. In optical refrigeration, the goal is to cool solids, typically rare-earth doped glasses and crystals or direct-band-gap semiconductors, to cryogenic temperatures by anti-Stokes luminescence. The best result so far is the cooling of a Yb:YLF crystal to 155 K from room temperature. Thin-film heat engines use a layer of electrocaloric material sandwiched between two thin-film heat switches to provide near-room-temperature cooling or to extract electrical power from heat flows. With heat switches based on liquid crystals, thin-film heat engines should be competitive with thermoelectric devices. With more effective heat switches, thin-film heat engines may rival vapor compression devices.
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