Optical time-division multiplexed fiber system using mode-locked injection lasers and TI:LINbO3 switch/modulators

R. S. TUCKER; G. EISENSTEIN; U. KOREN; S. K. KOROTKY; G. RAYBON; J. J. VESELKA; L. L. BUHL; R. A. ALFERNESS; B. L. KASPER

doi:10.1364/OFC.1987.WO2

Optical Fiber Communication
1987 OSA Technical Digest Series (Optica Publishing Group, 1987),
paper WO2
•https://doi.org/10.1364/OFC.1987.WO2

Optical time-division multiplexed fiber system using mode-locked injection lasers and TI:LINbO₃ switch/modulators

R. S. TUCKER, G. EISENSTEIN, U. KOREN, S. K. KOROTKY, G. RAYBON, J. J. VESELKA, L. L. BUHL, R. A. ALFERNESS, and B. L. KASPER

Optical Fiber Communication Conference 1987

Reno, Nevada United States
ISBN: 0-936659-61-0

From the session
High-Speed Devices and Systems: 2 (WO)

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R. S. TUCKER, G. EISENSTEIN, U. KOREN, S. K. KOROTKY, G. RAYBON, J. J. VESELKA, L. L. BUHL, R. A. ALFERNESS, and B. L. KASPER, "Optical time-division multiplexed fiber system using mode-locked injection lasers and TI:LINbO3 switch/modulators," in Optical Fiber Communication, 1987 OSA Technical Digest Series (Optica Publishing Group, 1987), paper WO2.

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Abstract

Optical time-division multiplexing (OTDM) is potentially a useful technique for increasing the bit rate of a system beyond the bandwidth capabilities of drive electronics. Here we report progress on a novel optical multiplexing scheme using mode-locked extended cavity injection lasers and TI:LiNbO₃ waveguide switch/modulators. We demonstrate OTDM of two separate lasers that are mode-locked and encoded at 2 GHz. The 4-Gb/s multiplexed signal is transmitted over 8 km of fiber.

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