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Interplay of thermoelectric cooling and electroluminescence refrigeration in LEDs

机译：LED中的热电冷却和电致发光制冷的相互作用

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Vibration-free solid-state optical coolers are promising candidates to replace mechanical Stirling coolers in many applications, especially in satellites and other space based systems. Among the many possible approaches, electroluminescence refrigeration using light emitting diodes (LEDs) is a highly desirable approach since LEDs are easy to integrate with electronic and optical devices to provide local cooling. Since electroluminescence refrigeration in LEDs involves both thermoelectric (TE) and optical processes, the interplay between these effects needs to be understood. In this paper, the study of electroluminescence refrigeration involving TE cooling effects in LEDs is presented. Unlike conventional TE coolers, which only provide heat transfer, electroluminescence coolers can achieve net cooling.

机译：无振动固态光学冷却器有望在许多应用中取代机械斯特林冷却器，特别是在卫星和其他基于太空的系统中。在许多可能的方法中，使用发光二极管（LED）的电致发光制冷是非常需要的方法，因为LED易于与电子和光学设备集成在一起以提供局部冷却。由于LED中的电致发光制冷涉及热电（TE）和光学过程，因此需要了解这些效应之间的相互作用。在本文中，涉及电致发光制冷的研究涉及LED的TE冷却效应。与仅提供热传递的传统TE冷却器不同，电致发光冷却器可以实现净冷却。

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来源
《》|2005年|P.521-524|共4页
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作者
Shui-Qing Yu; Jiang-Bo Wang; Ding Ding; Johnson; S.R.; Yong-Hang Zhang;
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原文格式 PDF
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中图分类工业技术;
关键词
electroluminescence; laser cooling; light emitting diodes; refrigeration; thermoelectricity; LED; electroluminescence refrigeration; light emitting diodes; net cooling; thermoelectric cooling; thermoelectric process; vibration-free solid-state optical coolers;

机译：电致发光;激光冷却;发光二极管;制冷;热电; LED;电致发光制冷;发光二极管;网络冷却;热电冷却;热电工艺;无振动固态光学冷却器;

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Interplay of thermoelectric cooling and electroluminescence refrigeration in LEDs

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