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23 February 1989 Optimized Design Of Long-Wavelength Detectors For Integrated Photoreceivers
H. Schumacher, J. Soole, G. Moehrke, H. P. LeBlanc
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Proceedings Volume 0988, Components for Fiber Optic Applications III and Coherent Lightwave Communications; (1989) https://doi.org/10.1117/12.959744
Event: O-E/Fiber LASE '88, 1988, Boston, MA, United States
Abstract
Metal-semiconductor-metal (MSM) and pin photodetectors have emerged over the past years as suitable options for large-bandwidth integrated receiver front-ends. In this paper we discuss the inherent bandwidth limitations set by practical constraints of size and quantum efficiency on InP/InGaAs based devices of both types under 1.3 and 1.55 pi m illumination. Large-bandwidth MSM detectors which use a strained GaAs layer between the InGaAs absorption layer and the Ti/Pt/Au contact fingers have been fabricated and tested. Their pulse response will be discussed in detail and compared with theoretical results.
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H. Schumacher, J. Soole, G. Moehrke, and H. P. LeBlanc "Optimized Design Of Long-Wavelength Detectors For Integrated Photoreceivers", Proc. SPIE 0988, Components for Fiber Optic Applications III and Coherent Lightwave Communications, (23 February 1989); https://doi.org/10.1117/12.959744
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KEYWORDS
Sensors
Absorption
Quantum efficiency
Picosecond phenomena
Gallium arsenide
Photodetectors
Fiber optic communications
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