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Holographic Interferometry

Autor Gregory R. Toker
en Limba Engleză Hardback – 23 mar 2012
Mach-Zehnder holographic interferometry is the simplest optical holographic technique and demonstrates the highest spatial resolution. This text describes the Mach-Zehnder approach to optical holography and includes the two different methods, reference beam and shearing holographic interferometry, and how they are used for effective diagnostic techniques for testing phase objects in aerospace and laser applications. It also discusses techniques of recording Mach-Zehnder holograms and techniques of enhancement of phase objects. Numerous experimental approaches demonstrate applications of studying phase objects from micro objects to wide aperture shock flows in a supersonic wind tunnel.
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Specificații

ISBN-13: 9781439881873
ISBN-10: 1439881871
Pagini: 211
Ilustrații: 61 black & white illustrations, 3 black & white tables
Dimensiuni: 163 x 236 x 18 mm
Greutate: 0.5 kg
Ediția:New.
Editura: CRC Press

Recenzii

"... covers many techniques and procedures of in-line holographic interferometry. ... emphasizes experimental procedures and solving problems in gas dynamics research and fluid dynamics. The author has considered minor details like influence of mechanical shutter vibrations on the computed phases. ... a good reference book."
— Rajpal Singh Sirohi, Rose-Hulman Institute of Technology, Terre Haute, Indiana, USA

Notă biografică

Gregory R. Toker, PhD, is a research professor in the Faculty of Chemistry at Technion, Israel Institute of Technology, Haifa, since 2007. He received his PhD from the Institute of General Physics (IOFAN), Russian Academy of Sciences, in 1988.

Cuprins

Introduction MACH--ZEHNDER OPTICAL HOLOGRAPHIC INTERFEROMETRY OF PHASE OBJECTS Introduction to Part I Mach--Zehnder Optical Reference Beam Interferometry Using Mach--Zehnder Interferometer for Recording Focused Image Interferograms Characteristics of 35-mm Photographic Films for Mach--Zehnder Interferometry Applications of Mach--Zehnder Interferometry by Imaging on Photographic Films Mach--Zehnder Reference Beam Optical Holographic Interferometry Using Mach--Zehnder Interferometer for Recording Focused Image Holograms on Photographic Films Reconstruction of Focused Image Mach--Zehnder Holograms and Studying Signal Wave by Related Techniques Studying Signal Wave by Methods of Reference Beam Mach--Zehnder Holographic Interferometry Dual Hologram Interferometry with Enhanced Sensitivity Applications of Mach--Zehnder Holographic Interferometry Dual Hologram Interferometry with Enhanced Sensitivity Applications of Mach--Zehnder Dual Hologram Interferometry with Enhanced Sensitivity Conclusion to Part I MACH--ZEHNDER OPTICAL SHEARING HOLOGRAPHIC INTERFEROMETRY OF COMPRESSIBLE FLOWS Introduction to Part II Mach--Zehnder Shearing Holographic Interferometry and Its Applications in Aerodynamics Problems of Application of Interference Techniques in Gas Dynamic Research Concept of Mach--Zehnder Dual Hologram Shearing Interferometry for Gas Dynamic Applications Applications of Mach--Zehnder Holographic Shearing Interferometry to a Supersonic Wind Tunnel Testing Mach--Zehnder Shearing Optical Holographic Interferometry with Regulated Sensitivity Applications of Mach--Zehnder Shearing Holographic Interferometry in Aerospace Engineering Research Mach--Zehnder Dual Hologram Shearing Interference Technique with Enhanced Sensitivity for Wind Tunnel Testing Phase Measurements in a Supersonic Shock Flow with Reduced Sensitivity: Two-Wavelength Mach--Zehnder Holographic Shearing Interferometry Mach--Zehnder Real-Time Shearing Optical Holographic Interferometry Real-Time Holographic Interference Shearing Technique for Wind Tunnel Testing Disappearance of Holographic and Interference Fringe Accompanying Optical Diagnostic of a Supersonic Bow Shock Flow Conclusion to Part II MACH--ZEHNDER DIGITAL HOLOGRAPHIC INTERFEROMETRY AND RELATED TECHNIQUES: RECORDING MACH--ZEHNDER DIGITAL INTERFEROGRAMS/HOLOGRAMS ON CCD/CMOS SENSORS AND ITS APPLICATIONS Introduction to Part III Mach--Zehnder Digital Holographic Interferometry Main Technical Characteristics of CCD/CMOS Sensors Responsible for Imaging Digital Mach--Zehnder Holograms Using CCD/CMOS Sensors for Recording Digital Mach--Zehnder Reference Beam Holograms/Interferograms Using CCD/CMOS Sensors for Recording Mach--Zehnder Shearing Holograms/Interferograms Applications of Mach--Zehnder Interferometry Using CCD/CMOS Sensors Related Diagnostic Techniques White Light Source and Laser Schlieren Diagnostic Techniques for Wind Tunnel Testing by Using CCD/CMOS Imaging Application of Moire Deflectometry Technique for Gas Dynamic Research Devices and Equipment for Routine Mach--Zehnder Holographic Interference Experiments Methods of Spatial Filtering Applicable to Mach--Zehnder Holographic Interference Experiments Devices and Equipment Required for Performing Routine Mach--Zehnder Holographic Interference Experiments Conclusion to Part III Conclusion References