The effects of weather conditions on the movements and activity of badgers (<i>Meles meles</i>) in a suburban environment

Analysis of transverse magnetic (TM) mode light extraction efficiency enhancement for AlGaN quantum wells (QWs) based deep ultraviolet (UV) light-emitting diodes (LEDs) with III-nitride microhemisphere and micro-dome structures on the p-type layer are studied and compared to that of the conventional deep-UV LEDs with flat surface. The transverse electric (TE) and TM components of the spontaneous emission of AlGaN QWs with AlN barriers were calculated by using a self-consistent 6band k•p method, which shows the TM component overtakes the TE component and becomes the dominant contribution of the spontaneous emission when the Al-content of the AlGaN QWs is larger than 0.66. The TM mode light extraction efficiency of the deep-UV LEDs emitting at 250 nm with AlGaN micro-domes as compared to the conventional LEDs with flat surface is calculated based on three dimensional finite difference time domain (3D-FDTD) method. The effects of the III-nitride micro-dome diameter and height as well as the p-type layer thickness on the light extraction efficiency were comprehensively studied. The results indicate optimized light extraction efficiency enhancement (>7.3 times) of the dominant TM polarized spontaneous emission for deep-UV LEDs with IIInitride micro-domes.

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GaN microdomes for broadband omnidirectional antireflection for concentrator photovoltaics

Han¹,

McGoogan²,

Piedimonte³

et al. 2013

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Simulations and Experiments of Tunable GaN Microdomes for Broadband Omnidirectional Antireflection

Han

Piedimonte

McGoogan

et al. 2013

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Matthew R. McGoogan

Analysis of TM mode light extraction efficiency enhancement for deep ultraviolet AlGaN quantum wells light-emitting diodes with III-nitride micro-domes

GaN microdomes for broadband omnidirectional antireflection for concentrator photovoltaics

Simulations and Experiments of Tunable GaN Microdomes for Broadband Omnidirectional Antireflection

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