Holography and interference processing of information
Introduction 643 I. Fresnel-transform Holography 644 1. Formulation of Problem (644). 2. The Holography Scheme (645). 3. Read and Virtual Images (646). 4. Bleached Hologram (647). 5. Dynamic Range of Hologram (647). Holographic Microscope (647). 7. Hologram in a Thick Emulsion (648). 8. Color Holography (648). II. Interference Processing of Information 649 1. Spatial Filtering of the Structure of an Optical Image (649). 2. Optical Multiplication Scheme (650). 3. Integral Operations in Optics (651). 4. Complex-conjugate Filter (651). 5. Optical Correlator—Prototype of the Computer of the Future (653). III. Fourier-transform Holography 654 1. Resolving Power of the hologram (654). 2. Fourier-Fraunhofer hologram (655). 3. Lensless Fourier Hologram (655). 4. Amplitude Addition and Subtraction with the Aid of a Fourier hologram (656). 5. Extended Source (657). IV. Holography of Incoherent Objects 658 Is It Possible? (658). 2. The First Experiment (658). V. Associative Memory 659 1. Interference Memory and Phantom Images (659). 2. Three-dimensional Storage Technique (660). 3. Associative Memory (661). VI. Applications of Holography 662 1. Certain Schemes of Holographic Installations (662). 2. High Speed Holography (663). 3. Holographic Spectroscope (663). 4. Processing of Geophysical Data (664). 5. Holographic Interferometer (664). 6. Optical "Reader" (665). 7. Electro-optical Converter in Radar (666). Conclusion 667 Cited literature 667
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