An Optical Fiber Communication System Based on Coherent Modulation. Part 2.

Abstract

Contents: Phase Delay between Intensity and Frequency Modulation of a Semiconductor Laser (Including a New Measurement Method); Spectral Behaviour of a Directly Current-Modulated CSP Laser; A Theoretical and Experimental Analysis of Modulated Laser Fields and Power Spectra; Current/Frequency-Modulation Characteristics for Directly Optical Frequency-Modulated Injection Lasers at 830 nm and 1.3 micrometers; Optical Phase Modulation and Homodyne Detection using an Injection Locked Laser Transmitter; Frequency Stabilization of Singlemode Semiconductor Lasers at 830 nm and 1.3 micrometers; Light Intensity Pulsations in an Injection Locked Semiconductor Laser; The Influence of Asymmetric Locking Characteristics on the Coherent Modulation Behaviour of an Injection Locked Semiconductor Laser; New Approach towards Frequency Stabilisation of Linewidth-Narrowed Semiconductor Lasers; Locking Conditions and Stability Properties for a Semiconductor Laser with External Light Injection; Simple theory of Optical Dual-Filter Heterodyne FSK Receivers with Non-Negligible (Semiconductor) Laser Linewidths; Error-rate Floor in Optical ASK Heterodyne Systems Caused by Nonzero (Semiconductor) Laser Linewidth; Influence of (Semiconductor) Laser Linewidth on the Error-Rate Floor in Dual-Filter Optical FSK Receivers; Overview of Coherent Communications - Applications and Perspectives.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1985

Accession Number

ADA163169

Entities

Tags