Numerical analysis of void-induced thermal effects on GaAs/AlGaAs high power quantum well laser diodes

2006 IEEE GCC Conference (GCC) Pub Date : 2006-03-20 DOI:10.1109/IEEEGCC.2006.5686220
F. Gity, V. Ahmadi, M. Noshiravani, K. Abedi
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引用次数: 1

Abstract

Microscopic voids in the die attachment solder layers of high power laser diodes (HPLDs) cause to degrade their overall thermal transfer performance. This paper presents the effects of voids on the thermal conductivity, leakage and threshold currents, characteristic temperature (T0) and output power of a single quantum well (SQW) HPLD. These effects are modeled by means of finite difference method (FDM). This numerical model calculates the time-dependent axial variations of photon density, carrier density and temperature in semiconductor laser self-consistently. The temperature dependence of the wavelength shift and the thermal mode hopping concept is also demonstrated.
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GaAs/AlGaAs高功率量子阱激光二极管的空洞诱导热效应数值分析
高功率激光二极管(HPLDs)的焊锡层中存在微小的空洞,导致其整体热传递性能下降。本文研究了真空对单量子阱HPLD的热导率、漏电流和阈值电流、特征温度(T0)和输出功率的影响。利用有限差分法(FDM)对这些效应进行了建模。该数值模型自一致地计算了半导体激光器中光子密度、载流子密度和温度随时间的轴向变化。波长移的温度依赖性和热模式跳变的概念也被证明。
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2006 IEEE GCC Conference (GCC)
2006 IEEE GCC Conference (GCC)
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