Radiative and Auger recombination in 1.3 μm InGaAsP and 1.5 μm InGaAs quantum-well lasers measured under high pressure at low and room temperatures

S. R. Jin; S. J. Sweeney; C. N. Ahmad; A. R. Adams; B. N. Murdin

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Radiative and Auger recombination in 1.3 μm InGaAsP and 1.5 μm InGaAs quantum-well lasers measured under high pressure at low and room temperatures

机译：在低温和室温下高压下测得的1.3μmInGaAsP和1.5μmInGaAs量子阱激光器中的辐射和俄歇复合

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We report on the pressure dependence of the threshold current in 1.3 μm InGaAsP and 1.5 μm InGaAs quantum-well lasers measured at low temperatures ～100 K. It was found that the threshold current of both devices slowly increases with increasing pressure (i.e., increasing band gap) at ～100 K consistent with the calculated variation of the radiative current. In contrast, at room temperature we observed a reduction of the threshold current with increasing pressure. Our low-temperature, high-pressure data confirm the results of previous atmospheric pressure measurements on the same devices which indicated a transition in the dominant recombination mechanism from radiative to Auger as the device temperature is increased from ～100 to 300 K.

机译：我们报告了在〜100 K的低温下测得的1.3μmInGaAsP和1.5μmInGaAs量子阱激光器中阈值电流的压力依赖性。发现这两个器件的阈值电流都随着压力的增加而缓慢增加（即，带增加）。间隙）在〜100 K时与计算出的辐射电流变化一致。相反，在室温下，我们观察到阈值电流随压力增加而降低。我们的低温，高压数据证实了先前在相同装置上进行大气压测量的结果，该结果表明，随着装置温度从约100 K升高至300 K，主导复合机理从辐射向俄歇过渡。

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来源
《Applied Physics Letters》 |2004年第3期|p.357-359|共3页
作者
S. R. Jin; S. J. Sweeney; C. N. Ahmad; A. R. Adams; B. N. Murdin;
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作者单位

Advanced Technology Institute, School of Electronics and Physical Sciences, University of Surrey, Guildford, Surrey GU2 7XH, United Kingdom;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;
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1. Improved high-temperature performance of 1.3-1.5-/spl mu/m InNAsP-InGaAsP quantum-well microdisk lasers [J] . Bi W.G., Ma Y. IEEE Photonics Technology Letters . 1997,第8期

机译：改进的1.3-1.5- / splμm/ m InNAsP-InGaAsP量子阱微盘激光器的高温性能
2. Coupling of large optical loss with Auger recombination in 1.3 mu m InGaAsP lasers investigated using hydrostatic pressure [J] . Jin SR., Sweeney SJ., Adams AR., Physica status solidi, B. Basic research . 2003,第2期

机译：利用静水压研究1.3μmInGaAsP激光器中大光损失与俄歇复合的耦合
3. Carrier recombination processes in 1.3 mu m and 1.5 mu m InGaAs(P)-based lasers at cryogenic temperatures and high pressures [J] . Sweeney SJ, Jin SR, Ahmad CN, Physica status solidi, B. Basic research . 2004,第14期

机译：低温和高压下1.3μm和1.5μmInGaAs（P）基激光器中的载流子复合过程
4. Determination of the influence of Auger recombination on the threshold current of 1.3 /spl mu/m and 1.5 /spl mu/m InGaAs(P) strained-layer lasers and its variation with temperature [C] . Sweeney, S.J., Phillips, . 1998

机译：确定俄歇复合效应对1.3 / spl mu / m和1.5 / spl mu / m InGaAs（P）应变层激光器的阈值电流的影响及其随温度的变化
5. High operating temperature of passively mode-locked InGaAsP/InP semiconductor lasers [D] . Tan, Wei Kiong. 2005

机译：被动锁模InGaAsP / InP半导体激光器的高工作温度
6. Narrow ridge waveguide high power single mode 1.3-μm InAs/InGaAs ten-layer quantum dot lasers [O] . Q Cao, SF Yoon, CY Liu, 2007

机译：窄脊波导高功率单模1.3μmInAs / InGaAs十层量子点激光器
7. Radiative and Auger Recombination in 1.3 mu m InGaAsP and 1.5 mu m InGaAs Quantum-well Lasers Measured Under High Pressure at Low and Room Temperatures [O] . Jin S R, Sweeney S J, Ahmad C N, 2004

机译：在低温和室温下高压下测量的1.3μmInGaAsP和1.5μmInGaAs量子阱激光器的辐射和俄歇复合
8. Threshold Dependence on the Spectral Alignment Between the Quantum-Well Gain Peak and the Cavity Resonance in InGaAsP Photonic Crystal Lasers [R] . Cao, J. R. , Kuang, W. , Choi, S. , 2005

机译：InGaasp光子晶体激光器中量子阱和阱增益峰之间光谱对准的阈值独立性和腔谐振

Radiative and Auger recombination in 1.3 μm InGaAsP and 1.5 μm InGaAs quantum-well lasers measured under high pressure at low and room temperatures

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