光子学报
光子學報
광자학보
ACTA PHOTONICA SINICA
2010年
1期
1-5
,共5页
侯立峰%钟钢%赵英杰%王玉霞%郝永芹%冯源%姜晓光%谢浩瑞
侯立峰%鐘鋼%趙英傑%王玉霞%郝永芹%馮源%薑曉光%謝浩瑞
후립봉%종강%조영걸%왕옥하%학영근%풍원%강효광%사호서
高功率半导体激光%垂直腔面发射激光器%径向桥%热拐点
高功率半導體激光%垂直腔麵髮射激光器%徑嚮橋%熱枴點
고공솔반도체격광%수직강면발사격광기%경향교%열괴점
High-power semiconductor laser%VCSEL%Radial brigde%Thermal rollover
为改善高功率垂直腔面发射半导体激光器的热特性,提高它的输出功率,研制了新型径向桥电极高功率垂直腔面发射半导体激光器器件.对新型半导体激光器的结构模型进行理论分析表明,采用径向桥式电极可以降低器件P型DBR电阻,减小焦耳热;降低热阻,提高器件的散热能力.实验制备了出光孔径同为200 μm的径向桥电极与常规电极的高功率垂直腔面发射半导体激光器,并对器件的性能进行了实验对比测试.结果表明径向桥电极高功率垂直腔面发射半导体激光器器件的微分电阻为0.43 Ω;室温下最大输出功率可达340 mW,是常规电极垂直腔面发射半导体激光器的1.7倍;器件的热阻为0.095 ℃/mW,在80 ℃时,仍能正常激射,具有良好的热特性,径向桥电极高功率垂直腔面发射半导体激光器的光电特性与温度特性要远好于常规电极的高功率垂直腔面发射半导体激光器器件.
為改善高功率垂直腔麵髮射半導體激光器的熱特性,提高它的輸齣功率,研製瞭新型徑嚮橋電極高功率垂直腔麵髮射半導體激光器器件.對新型半導體激光器的結構模型進行理論分析錶明,採用徑嚮橋式電極可以降低器件P型DBR電阻,減小焦耳熱;降低熱阻,提高器件的散熱能力.實驗製備瞭齣光孔徑同為200 μm的徑嚮橋電極與常規電極的高功率垂直腔麵髮射半導體激光器,併對器件的性能進行瞭實驗對比測試.結果錶明徑嚮橋電極高功率垂直腔麵髮射半導體激光器器件的微分電阻為0.43 Ω;室溫下最大輸齣功率可達340 mW,是常規電極垂直腔麵髮射半導體激光器的1.7倍;器件的熱阻為0.095 ℃/mW,在80 ℃時,仍能正常激射,具有良好的熱特性,徑嚮橋電極高功率垂直腔麵髮射半導體激光器的光電特性與溫度特性要遠好于常規電極的高功率垂直腔麵髮射半導體激光器器件.
위개선고공솔수직강면발사반도체격광기적열특성,제고타적수출공솔,연제료신형경향교전겁고공솔수직강면발사반도체격광기기건.대신형반도체격광기적결구모형진행이론분석표명,채용경향교식전겁가이강저기건P형DBR전조,감소초이열;강저열조,제고기건적산열능력.실험제비료출광공경동위200 μm적경향교전겁여상규전겁적고공솔수직강면발사반도체격광기,병대기건적성능진행료실험대비측시.결과표명경향교전겁고공솔수직강면발사반도체격광기기건적미분전조위0.43 Ω;실온하최대수출공솔가체340 mW,시상규전겁수직강면발사반도체격광기적1.7배;기건적열조위0.095 ℃/mW,재80 ℃시,잉능정상격사,구유량호적열특성,경향교전겁고공솔수직강면발사반도체격광기적광전특성여온도특성요원호우상규전겁적고공솔수직강면발사반도체격광기기건.
The novel high-power vertical-cavity surface-emitting lasers(VCSEL) with radial bridge electrode is fabricated in order to improve the thermal characteristics and increase the out power of high power VCSEL.The analysis on the model of the high-power VCSEL shows the radial bridge electrode can reduce the electric and thermal resistance and the Joule heat of VCSEL.The radial brigde electrode and the conventional electrode high power VCSEL both with 200 μm aperture are made and tested comparatively.The testing results show that the differential resistance of the VCSEL is 0.43 Ω and the out power is 340 mW,1.7 times higher than the conventional device,which can operate at higher up to 80 ℃,and its thermal resistance is 0.95 ℃/mW.The temperature and opto-electric characteristics of radial bridge electrode high power VCSEL are much better than those of the conventional electrode high power VCSEL.
