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Holography

Holography

Autorzy
Wydawnictwo CRC Press Inc.
Data wydania 01/06/2019
Wydanie Pierwsze
Liczba stron 352
Forma publikacji książka w twardej oprawie
Poziom zaawansowania Dla szkół wyższych i kształcenia podyplomowego
Język angielski
ISBN 9781439855836
Kategorie Światło/optyka, Fizyka stosowana
822.14 PLN (z VAT)
$213.68 / €193.62 / £163.18 /
Produkt na zamówienie
Dostawa 5-6 tygodni
Ilość
Do schowka

Opis książki

Holography: Principles and Applications provides a comprehensive overview of the theory, practical considerations, and applications of holography. The author has spent his career working on different aspects of this subject, and in this book, conveys the foundation for others to use holography and holographic concepts in a variety of important applications. Special emphasis is placed on the analysis of the imaging and diffraction efficiency properties of holographic optical elements that are finding increasing use in medical imaging, solar conversion systems, and augmented reality eyewear. A comprehensive overview of holographic materials is also given as this area is critical for implementing successful holographic designs. The important areas of digital and computer generated holography are also presented to give the reader an understanding of these topics. The author has attempted to explain each subject in a manner that he has found effective in teaching holography for over thirty years. This book is suitable for researchers and as a textbook for graduate students in optics, physics, and engineering. As an aid to instructors and students, the book includes exercise problems and a set of laboratory experiments to enhance understanding. Methods for preparing and handling holographic materials is also provided to help individuals develop experimental capability in holography. In addition, over 450 current and foundational references are provided to help the researcher probe further into this interesting and useful subject. Features Offers a systematic, rigorous account of the principles, techniques, and applications of holography; Describes the process of design, implementation, and evaluation of a variety of holographic optical elements; Provides an extensive overview of holographic materials including preparation, handling, and processing techniques; Includes exercise problems and laboratory experiments. "[This book] provides a comprehensive overview of the theory, practical considerations, and applications of holography. Professor Kostuk has spent his career working on different aspects of this subject, and in this book, conveys the foundation for others to use holography and holographic concepts in a variety of important applications. Special emphasis is placed on the analysis of the imaging and diffraction efficiency properties of holographic optical elements that are finding increasing use in medical imaging, solar conversion systems, and augmented reality eyewear. A comprehensive overvie

Holography

Spis treści

Chapter 1: Introduction and Brief History of Holography













1.1 Introduction
















1.2 Historical Background
















1.3 Philosophy and Content of the Book













References


Chapter 2: Background of Physical and Geometrical Optics for Holography


2.1 Introduction


2.2 Light as an Electromagnetic Wave


2.3 Polarization of an Optical Field


2.3.1 Linear Polarization


2.3.2 Circular Polarization


2.3.3 Elliptical Polarization


2.4 Coherence


2.4.1 Temporal Coherence


2.4.2 Spatial Coherence


2.5 Geometrical Optics


2.5.1 Ray Propagation


2.5.2 Reflection at Dielectric Interfaces


2.5.2.1 Fresnel Formulae


2.5.2.2 Brewster Angle


2.5.2.3 Total Internal Reflection (TIR)


2.5.3 Optical Lenses


2.5.4 Focusing Mirrors


2.5.5 Paraxial Rays and Basic Image Analysis Methods


2.5.5.1 Paraxial Approximation and Ray Trace Relations


2.5.5.2 Basic Image Analysis Methods


2.6 Diffraction Analysis


2.6.1 Huygens-Fresnel Formalism of Diffraction


2.6.2 Near Field Diffraction Condition


2.6.3 Far-Field Diffraction


2.6.4 Fourier Transform Properties of a Lens


2.6.5 Diffraction by Apertures


2.6.5.1 Rectangular Aperture


2.6.5.2 Circular Aperture


References


Problems


Chapter 3: Introduction to the Basic Concepts of Holography


3.1 Introduction


3.2 Holographic Recording Process


3.3 Scattering from a Periodic Array of Scattering Points and the Grating Equation


3.4 Hologram Terminology


3.4.1 Diffraction Efficiency


3.4.2 Linear, Computer Generated, and Digital Holography Recording


3.4.3 Thin and Thick (Volume) Holographic Gratings


3.4.4 Transmission and Reflection Type Holograms


3.5 Hologram Geometries


3.5.1 'In-Line' (Gabor Type) Holograms


3.5.2 'Off-Axis' Hologram


3.5.3 Fourier Transform Hologram


3.5.4 Fraunhofer Hologram


3.5.5 Hologram Geometry Diagram


3.6 Plane Wave Analysis of Holograms


3.6.1 Grating Vector


3.6.2 K-Vector Closure or Bragg Condition


3.6.3 Reflection Hologram Example


3.6.4 Bragg Circle Diagram


3.7 Dispersion of Thin Gratings


3.7.1Example of a Spectrometer with a Holographic Grating


References


Problems


Chapter 4: Holographic Image Formation


4.1 Introduction


4.2 Exact Ray Tracing


4.2.1 Exact Ray Tracing Algorithm


4.2.2 Primary and Secondary Image Formation


4.2.3 Forming a Real Image with a Conjugate Reconstruction Beam


4.3 Hologram Paraxial Imaging Relations


4.3.1 Analysis of the Phase Distribution from a Point Source to a Hologram Plane


4.3.2 Image Magnification Effects


4.3.3 Effects of

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