Molecular dynamics study on the thermal conductivity of multiple layers in semiconductor disk laser

机译：半导体盘激光器中多层导热率的分子动力学研究

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Thermal properties of multiple layers including distributed Bragg reflector (DBR) and multiple quantum wells (MQWs) used in the semiconductor gain element are crucial for the performance of a semiconductor disk laser (SDL). For the purpose of more reasonable semiconductor wafer design, so to improve the thermal management of SDLs, accurate thermal conductivity value of a DBR is under considerable requirement. By the use of equilibrium molecular dynamics (EMD) method, thermal conductivities of AlAs/GaAs DBRs, which were widely employed in lum wavelength SDLs, were calculated, and simulated results were compared with reported data. Influences of the Al composition, and the layer thickness on the thermal conductivities were focused and analyzed.

机译：在半导体增益元件中使用的分布式布拉格反射器（DBR）和多个量子阱（MQW）的多层的热特性对于半导体盘激光器（SDL）的性能至关重要。为了更合理的半导体晶片设计，因此为了提高SDL的热管理，DBR的精确导热值在相当大的要求下。通过使用平衡分子动力学（EMD）方法，计算了alas / gaas dBrs的热导体，其被广泛用于Lum波长SDLs，并将模拟结果与报告的数据进行了比较。聚合和分析了Al组合物的影响和层厚度对热导体的厚度。

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来源
《Conference on semiconductor lasers and applications VII》|2016年|xii v. p.|共8页
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作者
Peng Zhang; Renjiang Zhu; Maohua Jiang; Yanrong Song; Dingke Zhang; Yuting Cui;
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正文语种
中图分类激光技术、微波激射技术;
关键词
semiconductor disk laser (SDL); thermal conductivity; multiple layers; equilibrium molecular dynamics;

机译：半导体盘激光（SDL）;导热率;多层;平衡分子动力学;

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Molecular dynamics study on the thermal conductivity of multiple layers in semiconductor disk laser

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