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Introduction to fourier optics / Joseph W. Goodman

By: Material type: TextTextPublisher: New York : Macmillan Learning, 2017Edition: Fourth editionDescription: xiv, 546 páginas : ilustraciones, diagramas, gráficosContent type:
  • texto
Media type:
  • No mediado
Carrier type:
  • Volumen
ISBN:
  • 978-1-319-11916-4
Other title:
  • Fourier optics
Subject(s): DDC classification:
  • 621.36 G653i 21
Contents:
2. Analysis of two-dimensional signals and systems -- 3. Foundations of scalar diffraction theory -- 4. Fresnel and Fraunhofer diffraction -- 5. Computational diffraction and propagation -- 6. Wave-optics analysis of coherent optical systems -- 7. Frequency analysis of optical imaging systems -- 8. Point-spread function and transfer function engineering -- 9. Wavefront modulation -- 10. Analog optical information processing -- 11. Holography -- 12. Fourier optics in optical communications -- A. Delta functions and Fourier transform theorems -- B. Introduction to paraxial geometrical optics -- C. Polarization and Jones matrices -- D. The grating equation
Summary: Fourier analysis is a ubiquitous tool that has found application to diverse areas of physics and engineering. This book deals with its applications in optics, and in particular with its applications to diffraction, imaging, optical data processing, holography and optical communications.
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Holdings
Item type Current library Collection Call number Status Notes Date due Barcode
Libros Impresos Libros Impresos Ciencias e ingeniería Circulación Colección General 621.36 G653i (Browse shelf(Opens below)) Available UPA 22991-LFC 2025-0508

Includes bibliographical references (pages 517-533) and index.

2. Analysis of two-dimensional signals and systems -- 3. Foundations of scalar diffraction theory -- 4. Fresnel and Fraunhofer diffraction -- 5. Computational diffraction and propagation -- 6. Wave-optics analysis of coherent optical systems -- 7. Frequency analysis of optical imaging systems -- 8. Point-spread function and transfer function engineering -- 9. Wavefront modulation -- 10. Analog optical information processing -- 11. Holography -- 12. Fourier optics in optical communications -- A. Delta functions and Fourier transform theorems -- B. Introduction to paraxial geometrical optics -- C. Polarization and Jones matrices -- D. The grating equation

Fourier analysis is a ubiquitous tool that has found application to diverse areas of physics and engineering. This book deals with its applications in optics, and in particular with its applications to diffraction, imaging, optical data processing, holography and optical communications.

Encargado de S.A.I | Teléfono: (32)2205911 |Anexo: 5911 | Correo: jonnathan.isla@upla.cl

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