Gain and loss as a function of current density and temperature in interband cascade lasers

Merritt C. D.; Bewley W. W.; Kim C. S.; Canedy C. L.; Vurgaftman I.; Meyer J. R.; Kim M.

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Gain and loss as a function of current density and temperature in interband cascade lasers

机译：带间级联激光器中增益和损耗与电流密度和温度的关系

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We characterize the internal efficiency, internal loss, and optical gain versus current density in 7-stage interband cascade lasers operating at lambda = 3.1 and 3.45 mu m using a cavity-length study of the external differential quantum efficiency (EDQE) and threshold current density at temperatures between 300 and 345 K. We find that the pronounced efficiency droop of the EDQE at high current densities is primarily due to an increase in the internal loss rather than a reduction in the internal efficiency. On the other hand, if the current density J is fixed, the temperature variation of the EDQE at that J is due primarily to a decrease of the internal efficiency. The gain versus current density is fit well by a logarithmic relationship, although the magnitude of the experimental gain is >20% below the theoretical estimate. (C) 2015 Optical Society of America

机译：我们使用腔长研究外部差分量子效率（EDQE）和阈值电流密度来表征在λ= 3.1和3.45μm下工作的7级带间级联激光器的内部效率，内部损耗以及光增益与电流密度的关系在300至345 K之间的温度下。我们发现高电流密度下EDQE的明显效率下降主要是由于内部损耗的增加而不是内部效率的降低。另一方面，如果电流密度J固定，则EDQE在该J处的温度变化主要是由于内部效率的降低。增益与电流密度的对数关系很好，尽管实验增益的幅度比理论估计值低20％以上。（C）2015年美国眼镜学会

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《Applied optics》 |2015年第31期|共7页
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Merritt C. D.; Bewley W. W.; Kim C. S.; Canedy C. L.; Vurgaftman I.; Meyer J. R.; Kim M.;
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1. Gain and loss as a function of current density and temperature in interband cascade lasers [J] . Merritt C. D., Bewley W. W., Kim C. S., Applied optics . 2015,第31期

机译：带间级联激光器中增益和损耗与电流密度和温度的关系
2. InAs-based interband-cascade-lasers emitting around 7μm with threshold current densities below 1 kA/cm~2 at room temperature [J] . Matthias Dallner, Florian Hau, Sven Hoefling, Applied Physics Letters . 2015,第4期

机译：基于InAs的带间级联激光器，在室温下发射约7μm，阈值电流密度低于1 kA / cm〜2
3. Interband cascade lasers with room temperature threshold current densities below 100 A/cm~2 [J] . Robert Weih, Martin Kamp, Sven Hoefling Applied Physics Letters . 2013,第23期

机译：室温阈值电流密度低于100 A / cm〜2的带间级联激光器
4. Measurement of internal quantum efficiency and temperature dependence of gain and loss in interband cascade lasers near room-temperature [C] . 22nd IEEE International Semiconductor Laser Conference . 2010

机译：室温附近带间级联激光器的内部量子效率和增益和损耗的温度依赖性的测量
5. III-V optoelectronic devices: Room temperature CW operation of interband cascade laser & high efficiency p-side down indium gallium nitride/gallium nitride solar cell [D] . Ryu, Geunmin. 2011

机译：III-V光电器件：室温CW运动中带级联激光和高效P侧下占氮化镓/氮化镓太阳能电池
6. Ppbv-Level Ethane Detection Using Quartz-Enhanced Photoacoustic Spectroscopy with a Continuous-Wave Room Temperature Interband Cascade Laser [O] . Chunguang Li, Lei Dong, Chuantao Zheng, 2018

机译：使用连续波室温带间级联激光器的石英增强光声光谱法检测Ppbv级乙烷
7. InAs-based interband-cascade-lasers emitting around 7 μm with threshold current densities below 1 kA/cm2 at room temperature [O] . Dallner, Matthias, Hau, Florian, Hoefling, Sven, 2015

机译：基于InAs的带间级联激光器在室温下发射约7μm的阈值电流密度低于1 kA / cm2
8. Room Temperature Interband Cascade Lasers [R] . Kim, M., Canedy, C. L., Kim, C. S., 2010

机译：室温带间级联激光器

Gain and loss as a function of current density and temperature in interband cascade lasers

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