High-performance analog-transmission characteristics of 1.3-μm-wavelength multiple quantum-well distributed-feedback laser

M. Ishino; K. Fujihara; N. Ohtsuka; N. Takenaka; T. Uno; Y. Matsui

doi:10.1364/OFC.1991.WG6

Optical Fiber Communication
1991 OSA Technical Digest Series (Optica Publishing Group, 1991),
paper WG6
•https://doi.org/10.1364/OFC.1991.WG6

High-performance analog-transmission characteristics of 1.3-μm-wavelength multiple quantum-well distributed-feedback laser

M. Ishino, K. Fujihara, N. Ohtsuka, N. Takenaka, T. Uno, and Y. Matsui

Optical Fiber Communication Conference 1991

San Diego, California United States
ISBN: 1-55752-166-2

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Advanced Optical Sources: 1 (WG)

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M. Ishino, K. Fujihara, N. Ohtsuka, N. Takenaka, T. Uno, and Y. Matsui, "High-performance analog-transmission characteristics of 1.3-μm-wavelength multiple quantum-well distributed-feedback laser," in Optical Fiber Communication, Vol. 4 of 1991 OSA Technical Digest Series (Optica Publishing Group, 1991), paper WG6.

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Abstract

Amplitude-modulated frequency-division multiplexed (AM-FDM) optical transmission systems are strongly demanded for cable television (CATV) networks because of their compatibility with current coaxial systems.¹ In these systems, 1.3-μm-wavelenth low-distortion distributed-feedback (DFB) laser diodes (LD’s) with high fiber-output are important light sources for long-distance high-density multiple-channel transmission. Multiple-quantum-well (MQW) DFB lasers are expected to implrove on these characteristics as compared with conventional DFB lasers. In a MQW LD, a smaller spatial hole-burning effect and higher resonant relaxation frequency owing to the quantum-size effect favor low-distortion operation,² and low internal loss owing to a smaller confinement factor facilitates high output power.³ We report on a 1.3-μm-wavelength MQW-DFB LD and its analog multichannel transmission characteristics for the first time.

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