Static and Dynamic Characteristics of Metalorganic-Vapor-Phase-Epitaxy-Grown 1585 nm InGaAs/InGaAlAs Separate Confinement Heterostructure Multiple-Quantum-Well Metal-Clad Ridge-Waveguide Lasers
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概要
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Fabrication and characteristics of InGaAs/InGaAlAs separate confinement heterostructure multiquantum-well (SCH-MOW) metal-clad ridge-waveguide (MCRW) laser diodes are reported. The layer structures have been grown by atmospheric pressure metalorganic vapor phase epitaxy (AP-MOVPE) without any use of phospine. The lasers emit around 1585 nm, and the minimum cw-threshold current is 15 mA for 200 μm-long lasers with high-reflection (HR) coating on both mirrors. For 600 μm- and 800 μm-long one-side HR-coated devices, continuous wave (CW) output power levels up to 16 mW and CW operation around 60℃ have been achieved. A power-limited 3 dB bandwidth of 5.1 GHz has been measured. From small signal modulation measurements, a maximum differential gain of 7.7×10^<-16>cm^2 has been calculated.
- 社団法人応用物理学会の論文
- 1991-11-15
著者
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STEGMULLER Bernhard
Siemens A G, Research Laboratories
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Stegmuller Bernhard
Siemens A G Research Laboratories
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Stegmueller B
Siemens Ag Corporate Research And Development
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BORCHERT Bernd
Siemens AG, Corporate Research and Development
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HEDRICH Harald
Siemens AG, Corporate Research and Development
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LANG Hans
Siemens AG, Corporate Research and Development
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ASAM Gabriele
Siemens AG, Corporate Research and Development
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Borchert B
Siemens Ag Munich Deu
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Borchert Bernd
Siemens Ag Corporate Research And Development
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Lang Hans
Siemens Ag Corporate Research And Development
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Asam Gabriele
Siemens Ag Corporate Research And Development
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Hedrich Harald
Siemens Ag Corporate Research And Development
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- Static and Dynamic Characteristics of Metalorganic-Vapor-Phase-Epitaxy-Grown 1585 nm InGaAs/InGaAlAs Separate Confinement Heterostructure Multiple-Quantum-Well Metal-Clad Ridge-Waveguide Lasers
- Advanced 1.55 μm Quantum-Well GaInAlAs Laser Diodes with Enhanced Performance