1st Edition

Holographic Interferometry A Mach–Zehnder Approach

By Gregory R. Toker Copyright 2012
    211 Pages
    by CRC Press

    211 Pages
    by CRC Press

    Transparent in the visible range, phase objects can be studied in the optical range using holographic interferometry. Typically, the holograms are recorded on high-resolving-power holographic photo materials, but a lower spatial resolution is sufficient for successful research in many scientific applications. Holographic Interferometry: A Mach–Zehnder Approach offers practical guidance to research scientists and engineers using Mach–Zehnder holographic interferometry methods to study phase objects in the laboratory. The Mach–Zehnder approach allows the use of standard photographic film and electronic CCD/CMOS sensors with low resolving power, making it a simpler and more affordable option for testing many types of phase objects.





    This book demonstrates how to use standard photographic film for the optical recording and reconstruction of Mach–Zehnder holograms. It also illustrates techniques for using CCD/CMOS cameras to digitally record Mach–Zehnder holograms/interferograms of transparent objects. Bringing together original research and information scattered throughout existing literature, this book focuses on the holographic reference beam and shearing interferometry methods. In particular, it looks at how these methods and optical schemes can be directly applied to testing aerodynamic flows, as well as to plasmas, shocks, and waves in noncoherent laser–matter interactions.





    Numerous reconstructed and classic interferograms, deflectograms, and Schlierengrams illustrate the material, helping readers develop and design their own optimal optical scheme and choose applicable details to apply the approach. Describing methods in a mathematically simple and accessible way, this book is also suitable for graduate students in the fields of aerospace engineering and optics, as well as those in laser, thermal, and plasma physics.

    Introduction. MACH–ZEHNDER OPTICAL HOLOGRAPHIC INTERFEROMETRY OF PHASE OBJECTS: Mach–Zehnder Optical Reference Beam Interferometry. Mach–Zehnder Reference Beam Optical Holographic Interferometry. Dual Hologram Interferometry with Enhanced Sensitivity. MACH–ZEHNDER OPTICAL SHEARING HOLOGRAPHIC INTERFEROMETRY OF COMPRESSIBLE FLOWS: Mach–Zehnder Shearing Holographic Interferometry and Its Applications in Aerodynamics. Mach–Zehnder Shearing Optical Holographic Interferometry with Regulated Sensitivity. Mach–Zehnder Real-Time Shearing Optical Holographic Interferometry. MACH–ZEHNDER DIGITAL HOLOGRAPHIC INTERFEROMETRY AND RELATED TECHNIQUES: RECORDING MACH–ZEHNDER DIGITAL INTERFEROGRAMS/HOLOGRAMS ON CCD/CMOS SENSORS AND ITS APPLICATIONS: Mach–Zehnder Digital Holographic Interferometry. Related Diagnostic Techniques. Devices and Equipment for Routine Mach–Zehnder Holographic Interference Experiments. Conclusion. References.

    Biography

    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.