Digital Holography and Wavefront Sensing : Principles, Techniques and Applications / by Ulf Schnars, Claas Falldorf, John Watson, Werner Jüptner.
Material type: TextEdition: 2nd ed. 2015Description: 1 online resource (XI, 226 pages 145 illustrations, 27 illustrations in color.)ISBN:- 9783662446935
- 621.3675
Item type | Current library | Home library | Collection | Call number | Status | Date due | Barcode | |
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Book | Dept. of Optoelectronics Processing Center | Dept. of Optoelectronics | Non-fiction | 621.3675 SCH/D (Browse shelf(Opens below)) | Available | DOP2888 |
Browsing Dept. of Optoelectronics shelves, Shelving location: Processing Center, Collection: Non-fiction Close shelf browser (Hides shelf browser)
621.3675 RAS/H Holographic interferometry / | 621.3675 SAX/P Practical holography / | 621.3675 SCH/D Digital Holography: digital hologram recording, numerical reconstruction, and related techniques/ | 621.3675 SCH/D Digital Holography and Wavefront Sensing : Principles, Techniques and Applications / | 621.3675 SYM/P Practical volume holography / | 621.3675 TOA/I Introduction to holography / | 621.3675 YAR/D Digital holography and digital image processing : principles, methods, algorithms/ |
Introduction -- Fundamental Principles of Holography -- Digital Holography -- Digital Holographic Interferometry (DHI) -- Digital Holographic Particle Sizing and Microscopy -- Special Techniques -- Computational Wave Field Sensing -- Speckle Metrology.
This book presents a self-contained treatment of the principles and major applications of digital hologram recording and numerical reconstruction (Digital Holography). This second edition has been significantly revised and enlarged. The authors have extended the chapter on Digital Holographic Microscopy to incorporate new sections on particle sizing, particle image velocimetry and underwater holography. A new chapter now deals comprehensively and extensively with computational wave field sensing. These techniques represent a fascinating alternative to standard interferometry and Digital Holography. They enable wave field sensing without the requirement of a particular reference wave, thus allowing the use of low brilliance light sources and even liquid-crystal displays (LCD) for interferometric applications. .
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