Introduction to Fourier Optics
Roberts and Company Publishers, 2005 - 491 Seiten
This textbook deals with fourier analysis applications in optics, and in particular with its applications to diffraction, imaging, optical data processing, holography and optical communications. Fourier analysis is a universal tool that has found application within a wide range of areas in physics and engineering and this third edition has been written to help your students understand the complexity of a subject that can be challenging to grasp at times.
Chapters cover foundations of scalar diffraction theory, Fresnel and Fraunhofer diffraction moving onto Wave-Optics Analysis of Coherent Optical Systems and Wavefront Modulation. Joseph Goodman’s work in Electrical Engineering has been recognised by a variety of awards and honours, so his text is able to guide students through a comprehensive introduction into Fourier Optics.
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WaveOptics Analysis of Coherent Optical Systems
Foundations of Scalar Diffraction Theory
Fresneland Fraunhofer Diffraction
Frequency Analysis of Optical Imaging Systems
Fourier Optics in Optical Communications
A Delta Functions and FourierTransform Theorems
B Introduction to Paraxial Geometrical Optics
Polarization and Jones Matrices
Analog Optical Information Processing
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amplitude transmittance angle aperture applied approximation array assumed azimuthal Bragg cell coherent optical components consider convolution coordinates detector device diffraction efficiency diffraction order direction distance effects emulsion equation exit pupil exposure field Figure film filter finite focal length focal plane Fourier transform Fraunhofer diffraction Fresnel Fresnel diffraction geometry grating hologram holography Huygens-Fresnel principle illumination illustrated in Fig imaging system impulse response incident incoherent input integral intensity distribution Kirchhoff lens lenses linear liquid crystal magnification mask matrix monochromatic normal object operation optical axis optical system output photographic plane wave point source polarization positive problem processing propagation properties pulse quadratic-phase Rayleigh-Sommerfeld rays reconstruction recording medium reference wave refractive index represented result rotation sampling scalar shown in Fig signal spatial frequency spatial light modulators spectral spherical wave star coupler theorem theory thickness transfer function transparency two-dimensional vector voltage wavefront waveguide wavelength zero