Physics – Optics
Scientific paper
Nov 1990
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990spie.1351...69s&link_type=abstract
IN: Digital image synthesis and inverse optics; Proceedings of the Meeting, San Diego, CA, July 9-13, 1990 (A92-18776 05-74). Be
Physics
Optics
High Resolution, Holography, Image Processing, Image Resolution, Holographic Interferometry, Image Reconstruction, Optical Computers, Phase Conjugation, Quantum Optics
Scientific paper
Coherent optical holography is analyzed by means of the Kirillov quantization procedure and developed with incoherent-to-coherent conversion for application to the superresolution method. The theoretical basis of holographic imaging is developed followed by a discussion of the Kirillov procedure. The generation of the symplectic hologram is shown to directly contrast the superresolution imaging method in which incoherent illumination is employed to compensate for a pinhole spatial filter. Incoherent-to-coherent conversion involves aperture reduction in the imaging system and reduction of the spatial coherence of the light source under the conditions of quantum parallelism. A pinhole spatial filter can also be used in the reference-beam channel without limiting the resolution of optical imaging systems with two parallel channels.
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