Repetitively Pulsed, 70 Joule Photolytic Iodine Laser with Excellent Optical and Long/Reliable Operation.

Abstract

The performance of repetitively pulsed, 70 joule, closed cycle 1.3 uM photolytic atomic iodine laser with excellent beam quality (BQ = 1.15) is presented. This BQ was exhibited in the fundamental mode from a M = 3.1 confocal unstable resonator at a 0.5 Hz repetition rate. A closed cycle scrubber/laser fuel system consisting of a condensative-evaporative section, two Cu wool 12 reactor regions, and an internal turbo-blower enabled the laser to operate very reliably with low maintenance. The fuel system provided C3F71 gas at 10-60 torr absent of the photolytic quenching by-product 12. Using a turbo-molecular blower longitudinal flow velocities greater than 10 m/s were achieved through the 150 cm long by 7.5 x 7.5 sq cm cross sectional photolytic iodine gain region. In addition to the high laser output and excellent BQ, the resulting 8-12 usec laser pulse had a coherence length greater than 45 meters and polarization extinction ratio better than 100:1. Projections from this pulsed photolytic atomic iodine laser technology to laser energies, higher repetition rates, and variable pulse widths are discussed.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 1996

Accession Number

ADA323020

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