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Proceedings Paper

Electronic/photonic inversion channel technology for optoelectronic ICs and photonic switching
Author(s): Geoffrey W. Taylor; Paul W. Cooke; Philip A. Kiely; Paul R. Claisse; Stephen K. Sargood; D. P. Doctor; Timothy A. Vang; Patrik A. Evaldsson; Sonu L. Daryanani
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Paper Abstract

A new approach to optoelectronic integration is presented in which all optical and electronic devices are derived from a single crystal growth and a single fabrication sequence. The approach uses a self-aligned inversion channel capable of functioning as an FET or bipolar transistor, a detector, a modulator or a laser in either an analog or a digital mode. Topics discussed include a three-terminal switching laser, a bipolar inversion channel field-effect transistor, a three-terminal analogue laser, an HFET detector, and an HFET optical modulator.

Paper Details

Date Published: 1 August 1991
PDF: 12 pages
Proc. SPIE 1476, Optical Technology for Microwave Applications V, (1 August 1991); doi: 10.1117/12.45556
Show Author Affiliations
Geoffrey W. Taylor, AT&T Bell Labs. (United States)
Paul W. Cooke, AT&T Bell Labs. (United States)
Philip A. Kiely, AT&T Bell Labs. (United States)
Paul R. Claisse, AT&T Bell Labs. (United States)
Stephen K. Sargood, AT&T Bell Labs. (United States)
D. P. Doctor, AT&T Bell Labs. (United States)
Timothy A. Vang, AT&T Bell Labs. (United States)
Patrik A. Evaldsson, AT&T Bell Labs. (Sweden)
Sonu L. Daryanani, AT&T Bell Labs. (United States)


Published in SPIE Proceedings Vol. 1476:
Optical Technology for Microwave Applications V
Shi-Kay Yao, Editor(s)

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