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Introduces the general concepts of both real-time and non-real-time 3-D holographic imaging techniques for scientific and engineering applications. Offering readers a fundamental understanding of the concepts of this imaging as well as cost-effective design and implementation, this book serves as a resource for engineers and scientists.
List of contents
From the contents:
Preface.
Chapter 1. Introduction.
Chapter 2. Holograms of Real and Virtual Point Trajectories.
Chapter 3. Self-Stabilized Real-Time Holographic Recording.
Chapter 4. Optical Scanning Holography: Principles and Applications.
Chapter 5. Tangible, Dynamic Holographic Images.
Chapter 6. Holographic Laser radar.
Chapter 7. Preliminary Studies on Compression of Interference Patterns in Electronic Holography.
Chapter 8. Photoelectronic Principles, Components and Applications.
Chapter 9. Design and Implementation of Computer-Generated Hologram and Diffractive Optical Element.
Chapter 10. Is Catastrophe Analysis the Basis for Visual Perception.
From the contents:
Preface.
Chapter 1. Introduction.
Chapter 2. Holograms of Real and Virtual Point Trajectories.
Chapter 3. Self-Stabilized Real-Time Holographic Recording.
Chapter 4. Optical Scanning Holography: Principles and Applications.
Chapter 5. Tangible, Dynamic Holographic Images.
Chapter 6. Holographic Laser radar.
Chapter 7. Preliminary Studies on Compression of Interference Patterns in Electronic Holography.
Chapter 8. Photoelectronic Principles, Components and Applications.
Chapter 9. Design and Implementation of Computer-Generated Hologram and Diffractive Optical Element.
Chapter 10. Is Catastrophe Analysis the Basis for Visual Perception.
