Paper
2 May 1994 Unity quantum efficiency and nanosecond response time photodetector using porous silicon film
Jim P. Zheng, Kaili L. Jiao, Wayne A. Anderson, HoiSing Kwok
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Abstract
A highly sensitive photodiode was fabricated with a metal-porous silicon-silicon-metal structure. The porous silicon film was found to be an excellent light trap and antireflection coating for the photodiode. It was demonstrated that close to unity quantum efficiency could be obtained in the wavelength range of 630 to 900 nm. The detector response time is about 2 ns for a 9 volts reverse bias. It was also demonstrated that a relative sensitivity of higher than 90 percent could be obtained with incident angles of 40 degree(s), 80 degree(s)2, and 58 degree(s) for s-,p- and randomly-polarized light. The uniformity and stability of the photodiode were also studied. Porous silicon films can also be used as solar cells to improve the acceptance angle of the sunlight. Possible machanisms to this photodiode and roles of the porous silicon film are discussed.
© (1994) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Jim P. Zheng, Kaili L. Jiao, Wayne A. Anderson, and HoiSing Kwok "Unity quantum efficiency and nanosecond response time photodetector using porous silicon film", Proc. SPIE 2149, Technologies for Optical Fiber Communications, (2 May 1994); https://doi.org/10.1117/12.175266
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Cited by 1 scholarly publication.
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KEYWORDS
Picosecond phenomena

Silicon

Photodiodes

Sensors

Semiconducting wafers

Quantum efficiency

Silicon films

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