Thermal conductivity tensors of the cladding and active layers of antimonide infrared lasers and detectors

Chuanle Zhou; I. Vurgaftman; C. L. Canedy; C. S. Kim; M. Kim; W. W. Bewley; C. D. Merritt; J. Abell; J. R. Meyer; A. Hoang; A. Haddadi; M. Razeghi; M. Grayson

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Thermal conductivity tensors of the cladding and active layers of antimonide infrared lasers and detectors

机译：锑红外激光器和探测器的覆层和有源层的热导张量

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The in-plane and cross-plane thermal conductivities of the cladding layers and active quantum wells of interband cascade lasers and type-II superlattice infrared detector are measured by the 2-wire 3ω method. The layers investigated include InAs/AlSb superlattice cladding layers, InAs/GaInSb/InAs/AlSb W-active quantum wells, an InAs/GaSb superlattice absorber, an InAs/GaSb/AlSb M-structure, and an AlAsSb digital alloy. The in-plane thermal conductivity of the InAs/AlSb superlattice is 4–5 times higher than the cross-plane value. The isotropic thermal conductivity of the AlAsSb digital alloy matches a theoretical expectation, but it is one order of magnitude lower than the only previously-reported experimental value.

机译：带内级联激光器和II型超晶格红外探测器的包覆层和有源量子阱的面内和横截面热导率通过2线3ω方法测量。研究的层包括InAs / AlSb超晶格覆层，InAs / GaInSb / InAs / AlSb W活性量子阱，InAs / GaSb超晶格吸收体，InAs / GaSb / AlSb M结构和AlAsSb数字合金。 InAs / AlSb超晶格的面内热导率比交叉面值高4-5倍。 AlAsSb数字合金的各向同性热导率符合理论预期，但比以前报告的唯一实验值低一个数量级。

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《Optical Materials Express》 |2013年第10期|共9页
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Chuanle Zhou; I. Vurgaftman; C. L. Canedy; C. S. Kim; M. Kim; W. W. Bewley; C. D. Merritt; J. Abell; J. R. Meyer; A. Hoang; A. Haddadi; M. Razeghi; M. Grayson;
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1. Thermal conductivity tensors of the cladding and active layers of interband cascade lasers [J] . Zhou Chuanle, Cui Boya, Vurgaftman I., Applied Physics Letters . 2014,第26期

机译：带间级联激光器的包层和有源层的热导张量
2. Thermal conductivity tensors of the cladding and active layers of interband cascade lasers [J] . Chuanle Zhou, Boya Cui, I. Vurgaftman, Applied Physics Letters . 2014,第26期

机译：带间级联激光器的包层和有源层的热导张量
3. Photothermal camera:an active infrared camera with laser excitation applied to the study of thin layer [J] . 自然科学进展（英文版） . 1996,第002期

机译：光热像仪：一种具有激光激发的有源红外热像仪，用于薄层研究
4. Photothermal camera: an active infrared camera with laser excitation applied to the study of thin layer [C] . C. Gruss, F. Lepoutre, D. Balageas International conference on photoacoustic and photothermal phenomena;ICPPP; 19960627-30;19960627-30; Nanjing(CN);Nanjing(CN) . 1996

机译：光热像仪：具有激光激励功能的主动式红外热像仪，用于薄层研究
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机译：中红外多量子阱激光器，使用数字生长的铝铟砷锑化物势垒和应变铟砷锑化物阱。
6. Effect of Laser Remelting on Cladding Layer of Inconel 718 Superalloy Formed by Laser Metal Deposition [O] . Bo Xin, Jiangyu Ren, Xiaoqi Wang, 2020

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7. Thermal Fields in Laser Cladding Processing: A “Fire Ball” Model. A Theoretical Computational Comparison, Laser Cladding versus Electron Beam Cladding [O] . Mihai Oane, Ion N. Mihăilescu, Carmen-Georgeta Ristoscu 2021

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Thermal conductivity tensors of the cladding and active layers of antimonide infrared lasers and detectors

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