Physics of visible and UV LED devices

机译：可见光和UV LED设备的物理学

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Large performance gap between the performance visible and deep ultraviolet light emitting diodes (DUV LEDs) is primarily attributed to material properties of high aluminum content group III-nitride semiconductor alloys used for DUV LEDs. For current state of art DUV LED devices the external quantum efficiencies (EQE) — ranges from 2% to 10%. A lower DUV LED efficiency is also due to poor transparency of semiconductor layers to UV light, poor UV light reflectivity of n-and p- contacts, low conductivity of semiconductor heterostructure, and high contact-to-semiconductor layer resistance. In this paper we discuss and compare physics of DUV LEDs and discuss the design of the next generation of DUV LEDs.

机译：性能可见和深紫外发光二极管（DUV LED）之间的大性性能主要归因于用于DUV LED的高铝含量组III-氮化物半导体合金的材料特性。对于当前的ART DUV LED设备，外部量子效率（EQE） - 范围为2％至10％。较低的DUV LED效率也是由于半导体层与UV光的透明度差，N-actions的低紫外线光反射率，半导体异质结构的低导电性和高接触到半导体层电阻。在本文中，我们讨论和比较Duv LED的物理学，并讨论下一代DUV LED的设计。

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《Lester Eastman Conference on High Performance Devices》|2012年||共4页
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Dobrinsky Alex; Shatalov Max; Gaska Remis; Shur Michael;
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中图分类 TN3-53;
关键词
LED; Ultraviolet; external quantum efficiency; internal quantum efficiency;

机译：LED;紫外线;外部量子效率;内部量子效率;

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Physics of visible and UV LED devices

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