An introduction to coherent optics and holography |
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Contents
Emergence of Modern Optics as a Branch of Electrical Engineering | 1 |
Diffraction Theory Qualitative Introduction | 16 |
Image Formation in Noncoherent Light Elements and Definitions | 26 |
Copyright | |
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Common terms and phrases
analysis angle aperture astigmatism beam Boersch Chapter coherent background COHERENT OPTICS complex amplitude component conjugate convolution correlation diffracted waves diffraction pattern electromagnetic electron electron microscopes example extended source factor field filtering focal plane Fourier Fourier-transform hologram frequency fringe system function G. W. Stroke Gabor geometrical given heterodyning holo illuminating wave image formation image-forming integral intensity distribution interference fringes interference grating interferogram interferometer INTRODUCTION TO COHERENT laser lens lenses lensless magnification Marechal Maxwell's equations method microscopy mirror noncoherent light object plane obtained optical computing optical system OPTICS AND HOLOGRAPHY original parameters phase shift photoelectric photographic plate Phys physical shadow plane wave point source principle produced reference wave resolution limit result scattered Section shown in Fig side-band signal sinusoidal slits spatial filtering spatially coherent spectral spectral lines spectroscopy spectrum spherical aberration term theory tion transform transmission vector wavefront wavefront reconstruction wavelength x-ray x-ray microscopy Zernike