Laser radar component technology

Author

Melngailis, I. ; Keicher, W.E. ; Freed, C. ; Marcus, S. ; Edwards, B.E. ; Sanchez, A. ; Tso Yee Fan ; Spears, D.L.

Author_Institution

Lincoln Lab., MIT, Lexington, MA, USA

Volume

84

Issue

2

fYear

1996

Firstpage

227

Lastpage

267

Abstract

The development of the laser soon led to recognition of its potential in radar applications. As radar systems were designed and implemented, however, it became clear that major refinement of the laser sources was needed to meet specific radar transmitter requirements in terms of waveforms, spectral purity, stability, beam quality, and power. The sensitivity and bandwidth of receivers were also in some cases insufficient, and new enabling detector technologies had to be created. This article provides a framework for much of the component development by describing the wideband high-power carbon dioxide (CO/sub 2/) imaging radar system at the Firepond Laser Radar Research Facility. The paper also details the critical components developed for the Firepond CO/sub 2/ range-Doppler imaging laser radar transmitter as well as transmitters for short-range CO/sub 2/ radars.

Keywords

Doppler radar; carbon compounds; gas lasers; laser frequency stability; optical radar; radar detection; radar transmitters; CO/sub 2/; Firepond Laser Radar Research Facility; beam quality; enabling detector technologies; laser radar component technology; laser sources; radar transmitter; range-Doppler imaging laser radar; spectral purity; stability; Bandwidth; Laser beams; Laser radar; Laser stability; Optical design; Power lasers; Radar applications; Radar detection; Radar imaging; Transmitters;

fLanguage

English

Journal_Title

Proceedings of the IEEE

Publisher

ieee

ISSN

0018-9219

Type

jour

DOI

10.1109/5.482230

Filename

482230