Holography: A Practical Approach
From fundamentals to advanced experiments and applications, this book explains how holography works. It guides students from simple optics to advanced topics in holography, following a practical approach using real-world materials. This proven university textbook contains exercises plus solutions as well as instructions for more than 20 experiments.
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2007 WILEY-VCH Verlag according to Fig Ackermann and Jürgen amplitude holograms beam splitter bleaching Bragg Bragg angle Brewster angle calculated coherence length color density described developing diameter diffraction efficiency diffraction grating diffraction orders diffuser screen direction distance divergent emulsion equation etalon exposure focal length function given glass plate gram grating constant He–Ne laser holo hologram is created holographic layer holographic plate intensity interference fringes interferometry Jürgen Eichler Copyright KGaA laser beam lens light reflection hologram light source linear polarized master hologram mirror object wave observed optical oscillation perpendicular phase holograms photo plate photoresist plane wave polarization position Problem production radiation rainbow hologram real image reconstructed image reconstruction wave recording reference beam reference wave refraction index rotated setup shown in Fig single-beam sobj spatial frequency spectrum sref surface tion transmission hologram visibility wavelength Weinheim ISBN white light reflection