Resonantly pumped optical pumping injection cavity lasers

McAlpine TC; Greene KR; Santilli MR; Olafsen LJ; Bewley WW; Felix CL; Vurgaftman I; Meyer JR; Lee H; Martinelli RU

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Resonantly pumped optical pumping injection cavity lasers

机译：共振泵浦光泵浦注入腔激光器

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An optical parametric oscillator is tuned to the resonance wavelength of the etalon in an optical pumping injection cavity (OPIC) laser with a type-II "W" active region, thereby minimizing the threshold pump intensity and maximizing the output slope efficiency. Previous OPIC experiments employed fixed-wavelength sources with only limited tuning available by adjusting the incident angle. Low threshold pump intensities of 330 W/cm(2) at 100 K and 14 kW/cm(2) at 300 K (where the output wavelength is 3200 nm) were achieved. The energy conversion efficiency is found to decrease by over a factor of 100 when the pump wavelength is tuned from the resonance condition (1822 nm at 300 K) to only slightly off resonance (e.g., 1808 nm). (C) 2004 American Institute of Physics.

机译：在具有II型“ W”型有源区的光泵浦注入腔（OPIC）激光器中，将光参量振荡器调谐到标准具的谐振波长，从而使阈值泵浦强度最小化，并使输出斜率效率最大化。以前的OPIC实验使用固定波长源，通过调整入射角只能进行有限的调谐。实现了100 K时330 W / cm（2）的低阈值泵浦强度和300 K（输出波长为3200 nm）下14 kW / cm（2）的低阈值泵浦强度。当将泵浦波长从共振条件（在300K下为1822nm）调谐到仅略微偏离共振（例如1808nm）时，发现能量转换效率降低了超过100倍。（C）2004美国物理研究所。

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来源
《Journal of Applied Physics 》 |2004年第9期| p. 4751-4754| 共4页
作者
McAlpine TC; Greene KR; Santilli MR; Olafsen LJ; Bewley WW; Felix CL; Vurgaftman I; Meyer JR; Lee H; Martinelli RU;
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作者单位

Univ Kansas, Dept Phys & Astron, Lawrence, KS 66045 USA;

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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 ;
关键词
MIDINFRARED W LASERS; HIGH-EFFICIENCY; DIODE-LASERS;

机译：MIDINFRA W激光;高效率;二极管激光;

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专利

1. Transparency pump intensity and differential gain in resonantly pumped W optical pumping injection cavity lasers [J] . Olafsen L. J., McAlpine T. C. Journal of Applied Physics . 2010 ,第5期

机译：共振泵浦W光学泵浦注入腔激光器中的透明泵浦强度和差分增益
2. Transparency pump intensity and differential gain in resonantly pumped W optical pumping injection cavity lasers [J] . L. J. Olafsen, T. C. McAlpine Journal of Applied Physics . 2010 ,第5期

机译：共振泵浦W光学泵浦注入腔激光器中的透明泵浦强度和差分增益
3. Nonlinear Temperature Dependence of Resonant Pump Wavelengths in Optical Pumping Injection Cavity Lasers [J] . Olafsen L. J., Ice L. D., Ball B. Selected Topics in Quantum Electronics, IEEE Journal of . 2011 ,第5期

机译：光学泵浦注入腔激光器中谐振泵浦波长的非线性温度依赖性
4. Pump Wavelength Tuning of Optical Pumping Injection Cavity Lasers for Enhancing Mid-Infrared Operation [C] . Todd C. McAlpine, Katherine R. Greene, Michael R. Santilli, Progress in Compound Semiconductor Materials III: Electronic and Optoelectronic Applications . 2003

机译：光学泵浦注入腔激光器的泵浦波长调谐，以增强中红外操作
5. Thermal management, beam control, and packaging designs for high power diode laser arrays and pump cavity designs for diode laser array pumped rod shaped lasers. [D] . Chung, Te-Yuan. 2004

机译：高功率二极管激光器阵列的热管理，光束控制和封装设计，以及二极管激光器阵列抽运的棒状激光器的泵浦腔设计。
6. Integrated Duo Wavelength VCSEL Using an Electrically Pumped GaInAs/AlGaAs 980 nm Cavity at the Bottom and an Optically Pumped GaInAs/AlGaInAs 1550 nm Cavity on the Top [O] . Samiha Ishrat Islam, Arnob Islam, Saiful Islam 2014

机译：集成双波长VCSEL底部使用电泵浦的GaInAs / AlGaAsAs 980 nm腔顶部使用光泵浦的GaInAs / AlGaInAs 1550 nm腔
7. Direct Measurement of Pump Intensity Distributions in an Optically Pumped Vertical-Cavity Surface-Emitting Laser [O] . Vander Rhodes Pomeroy, Er Rhodes, J. M. Pomeroy, 2007

机译：直接测量光泵浦垂直腔面发射激光器中的泵浦强度分布
8. Monolithic MgO:LiNbO3 Doubly Resonant Optical Parametric Oscillator Pumped by a Frequency-Doubled Diode-Laser-Pumped Nd:YAG Laser [R] . Byer, R. L., Nabors, C. D., Kozlovsky, W. J., 1989

机译：单片mgO：LiNbO3双谐振光学参量振荡器由倍频二极管激光泵浦Nd：YaG激光器泵浦

Resonantly pumped optical pumping injection cavity lasers

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