Holographic Correction of Aberrations in Optical Systems Employing Synthetic Apertures.
Abstract
The effectiveness of using holograms to correct aberrated wavefronts exiting a misaligned synthetic aperture is investigated. Negative transparency, photographic plate holograms were used as corrector plates for eliminating aberrations in a three lens synthetic aperture system built from commercially available components. In addition, holograms created within a lithium niobate crystal in near real time (less than 11/2 hours) were used to correct aberrations in a misaligned single lens system. The effectiveness of each aberration correction was qualitatively evaluated by comparing the impulse response of an unaberrated, aligned system to the impulse response of the corrected, misaligned system. These evaluations were made by comparing photographs of the corrected impulse response to computer generated plots of the unaberrated response predicted by Fourier optics. The holographic corrections made to the synthetic aperture were found to transform an aberrated impulse response into one that did resemble the computer prediction. However, the diffraction efficiency of the correction hologram was very low, and the impulse response obtained from it was very dim.
Document Details
- Document Type
- Technical Report
- Publication Date
- Mar 01, 1987
- Accession Number
- ADA179107
Entities
People
- Charles W. Gill
Organizations
- Air Force Institute of Technology