A. Akaev, A. Kutanov, B. Abdrisaev, S. Dordoev, I. A. Snimshchikov
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Use of a photothermoplastic disk for storing two-dimensional Fourier holograms in optical data-processing systems
The fundamental principles of locally recording two-dimensional holograms on a photothermoplastic disk by heating with an infrared laser are considered. The method developed was used in making a holographic photothermoplastic disk with homogeneous storage characteristics. The promising aspects of designing a system based on a holographic photothermoplastic disk and using the parallel data-processing principle, such as an optical neural network and an optical correlator, are pointed out. The principle merit of these systems is their high data-processing rate with a large storage capacity for standard patterns. The possibilities are indicated of implementing low-frequency spatial image filtering by recording matched niters and holograms, of recording complex filters by superposition, and of local rerecording of data on a photothermoplastic disk.
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