Master Oscillator With Power Amplifiers: Performance of a Two-Element CW HF Phased-Laser Array
Abstract
The experimental performance of a two-element phased array of multiline continuous-wave hydrogen-fluoride chemical lasers in the master oscillator with power amplifiers (MOPA) configuration has been measured. The mutual coherence of the two amplified beams wa inferred from measurements of the visibility of interference fringes obtained when the beams were overlapped in the near field. When the optical path difference for the two beams was minimized, multiline visibilities of 0.90 + or - 0.02 were measured. White-light interferometry was used to equalized the optical path lengths. Spectral mismatch between the master oscillator output and the amplifier's preferred gain distribution affected neither the amplification factor nor the mutual coherence of the amplified beams. The effect of spatial coherence of the master oscillator beam on these near-field measurement, and the eventual requirement of far-field measurements to precisely optimize path lengths, is discussed. Spectral data, amplification factors, and mutual coherence measurements are shown, and the resulting phased-array far-field performance is presented.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 15, 1989
- Accession Number
- ADA211141
Entities
People
- Jay M. Bernard
- John G. Coffer
- Richard A. Chodzko
Organizations
- The Aerospace Corporation