Finite element analysis of expansion-matched submounts for high-power laser diodes packaging
In order to improve the output power and increase the lifetime of laser diodes,expansion-matched submounts were investigated by finite element analysis.The submount was designed as sandwiched structure.By varying the vertical structure and material of the middle layer,the thermal expansion behavior...
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| Published in | Journal of semiconductors Vol. 37; no. 6; pp. 72 - 76 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Chinese Institute of Electronics
01.06.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-4926 |
| DOI | 10.1088/1674-4926/37/6/064005 |
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| Abstract | In order to improve the output power and increase the lifetime of laser diodes,expansion-matched submounts were investigated by finite element analysis.The submount was designed as sandwiched structure.By varying the vertical structure and material of the middle layer,the thermal expansion behavior on the mounting surface was simulated to obtain the expansion-matched design.In addition,the thermal performance of laser diodes packaged by different submounts was compared.The numerical results showed that,changing the thickness ratio of surface copper to middle layer will lead the stress and junction temperature to the opposite direction.Thus compromise needs to be made in the design of the vertical structure.In addition,the silicon carbide(SiC) is the most promising material candidate for the middle layer among the materials discussed in this paper.The simulated results were aimed at providing guidance for the optimal design of sandwich-structure submounts. |
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| AbstractList | In order to improve the output power and increase the lifetime of laser diodes, expansion-matched submounts were investigated by finite element analysis. The submount was designed as sandwiched structure. By varying the vertical structure and material of the middle layer, the thermal expansion behavior on the mounting surface was simulated to obtain the expansion-matched design. In addition, the thermal performance of laser diodes packaged by different submounts was compared. The numerical results showed that, changing the thickness ratio of surface copper to middle layer will lead the stress and junction temperature to the opposite direction. Thus compromise needs to be made in the design of the vertical structure. In addition, the silicon carbide (SiC) is the most promising material candidate for the middle layer among the materials discussed in this paper. The simulated results were aimed at providing guidance for the optimal design of sandwich-structure submounts. In order to improve the output power and increase the lifetime of laser diodes,expansion-matched submounts were investigated by finite element analysis.The submount was designed as sandwiched structure.By varying the vertical structure and material of the middle layer,the thermal expansion behavior on the mounting surface was simulated to obtain the expansion-matched design.In addition,the thermal performance of laser diodes packaged by different submounts was compared.The numerical results showed that,changing the thickness ratio of surface copper to middle layer will lead the stress and junction temperature to the opposite direction.Thus compromise needs to be made in the design of the vertical structure.In addition,the silicon carbide(SiC) is the most promising material candidate for the middle layer among the materials discussed in this paper.The simulated results were aimed at providing guidance for the optimal design of sandwich-structure submounts. |
| Author | 倪羽茜 马骁宇 井红旗 刘素平 |
| AuthorAffiliation | National Engineering Research Center for Optoelectronic Devices, Institute of Semiconductors, Chinese Academy of Sciences,Beijing 100083, China |
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| CitedBy_id | crossref_primary_10_1016_j_applthermaleng_2024_124145 crossref_primary_10_1007_s40195_019_00875_6 |
| Cites_doi | 10.1109/JSTQE.2013.2239961 10.1117/12.764087 10.1088/0022-3727/40/3/034 10.1117/12.2077518 10.1070/QE2014v044n10ABEH015552 10.1117/12.530677 10.1117/12.701292 10.1115/1.3077136 10.1117/12.702022 |
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| Notes | high-power laser diodes coefficient of thermal expansion thermal management finite element analysis 11-5781/TN In order to improve the output power and increase the lifetime of laser diodes,expansion-matched submounts were investigated by finite element analysis.The submount was designed as sandwiched structure.By varying the vertical structure and material of the middle layer,the thermal expansion behavior on the mounting surface was simulated to obtain the expansion-matched design.In addition,the thermal performance of laser diodes packaged by different submounts was compared.The numerical results showed that,changing the thickness ratio of surface copper to middle layer will lead the stress and junction temperature to the opposite direction.Thus compromise needs to be made in the design of the vertical structure.In addition,the silicon carbide(SiC) is the most promising material candidate for the middle layer among the materials discussed in this paper.The simulated results were aimed at providing guidance for the optimal design of sandwich-structure submounts. |
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| References | 11 12 14 15 Yang Liu (3) 2015; 36 Bezotosnyi V V (9) 2014; 44 Pliska A C (5) 2005; 2005 Zhike Zhang (1) 2015; 36 Hongqi Jing (2) 2015; 36 4 Dirk L (6) 2003; 4945 Xingsheng Liu (7) 2015 8 Szymański M (13) 2007; 40 Szymanski M (16) 2004; 5582 10 |
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| Snippet | In order to improve the output power and increase the lifetime of laser diodes,expansion-matched submounts were investigated by finite element analysis.The... In order to improve the output power and increase the lifetime of laser diodes, expansion-matched submounts were investigated by finite element analysis. The... |
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| SubjectTerms | coefficient of thermal expansion finite element analysis high-power laser diodes thermal management 中间层材料 优化设计 大功率激光二极管 夹层结构 封装 底座 有限元分析 相匹配 |
| Title | Finite element analysis of expansion-matched submounts for high-power laser diodes packaging |
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