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Proceedings Paper

High volume 850nm oxide VCSEL development for high bandwidth optical data link applications
Author(s): Chen Ji; Jingyi Wang; David Söderstrom; Kuo-Liang Chen; Ramana Murty; Mark Keever; Laura Giovane; Jeong-Ki Hwang; Gim-Hong Koh; Jason Tan; Jason Chu
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Paper Abstract

Directly modulated 850nm oxide VCSEL is a key enabling technology for short reach, high speed data-communication applications. Current commercially available optical transceiver products operate at data rate up to 10Gb/s per channel, for aggregate data rate of 70Gb/s and beyond, in the case of parallel optical data link. High volume, low cost, over temperature optical modulation speed, spectral width, output power, thermal power budget, large signal electrical interaction with the IC driver, and reliability are some of the key requirements driving the 850nm oxide VCSEL development. In this paper, we discuss some of the engineering issues investigated for developing a viable oxide VCSEL product operating at 10Gb/s per channel and higher data rate.

Paper Details

Date Published: 6 February 2009
PDF: 11 pages
Proc. SPIE 7229, Vertical-Cavity Surface-Emitting Lasers XIII, 722904 (6 February 2009); doi: 10.1117/12.808349
Show Author Affiliations
Chen Ji, Avago Technologies (United States)
Jingyi Wang, Avago Technologies (United States)
David Söderstrom, Avago Technologies (United States)
Kuo-Liang Chen, Avago Technologies (United States)
Ramana Murty, Avago Technologies (United States)
Mark Keever, Avago Technologies (United States)
Laura Giovane, Avago Technologies (United States)
Jeong-Ki Hwang, Avago Technologies (Singapore)
Gim-Hong Koh, Avago Technologies (Singapore)
Jason Tan, Avago Technologies (Singapore)
Jason Chu, Avago Technologies (Singapore)

Published in SPIE Proceedings Vol. 7229:
Vertical-Cavity Surface-Emitting Lasers XIII
Kent D. Choquette; Chun Lei, Editor(s)

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