Combination of Low-Index Quantum Barrier and Super Large Optical Cavity Designs for Ultranarrow Vertical Far-Fields From High-Power Broad-Area Lasers

Pietrzak A.; Crump P.; Wenzel H.; Erbert G.; Bugge F.; Tränkle G.

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Combination of Low-Index Quantum Barrier and Super Large Optical Cavity Designs for Ultranarrow Vertical Far-Fields From High-Power Broad-Area Lasers

机译：低折射率量子屏障和超大光腔设计的结合，用于大功率广域激光器的超窄垂直垂直场

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摘要

When active regions that use low refractive index quantum barriers (LIQB) are combined with super large optical cavity (SLOC) designs in GaAs-based diode lasers, high-power operation with extremely narrow vertical far-fields is observed. However, LIQB designs are found to have lower slope efficiency and increased operation voltage. Comparison of experiment and finite element device simulation shows that this is due to hole accumulation at the edge of the active region. Example devices using an 8.6-μm thick SLOC deliver 30 W at 1065 nm with vertical divergence of 15.6° (95% power).

机译：当在基于GaAs的二极管激光器中将使用低折射率量子垒（LIQB）的有源区与超大光腔（SLOC）设计结合在一起时，会观察到具有极窄垂直远场的高功率工作。然而，发现LIQB设计具有较低的斜率效率和增加的工作电压。实验与有限元设备仿真的比较表明，这是由于空穴在有源区边缘的积累。使用8.6μm厚SLOC的示例设备在1065 nm处可提供30 W的功率，垂直散度为15.6°（功率为95％）。

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来源
《Selected Topics in Quantum Electronics, IEEE Journal of》 |2011年第6期|p.1715-1722|共8页
作者
Pietrzak A.; Crump P.; Wenzel H.; Erbert G.; Bugge F.; Tränkle G.;
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Ferdinand-Braun-Institut, Leibniz-Instiut für Höchstfrequenztechnik, Berlin, Germany;

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正文语种 eng
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High-power laser diodes; narrow vertical far-field; semiconductor laser;

机译：大功率激光二极管狭窄的垂直远场半导体激光器;

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3. Vertical-Cavity Surface-Emitting Lasers (VCSELs) With High-Power and Single-Spot Far-Field Distributions at 850-nm Wavelength by Use of Petal-Shaped Light-Emitting Apertures [J] . Jin-Wei Shi, J.-L. Yen, C.-H. Jiang, IEEE Photonics Technology Letters . 2006,第3期

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Combination of Low-Index Quantum Barrier and Super Large Optical Cavity Designs for Ultranarrow Vertical Far-Fields From High-Power Broad-Area Lasers

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