Holographic optics: optically and computer generated : 19-20 January 1989, Los Angeles, California
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HOLOGRAPHIC OPTICAL ELEMENT FABRICATION METHODS
APPLICATIONS OF HOLOGRAPHIC OPTICS I
APPLICATIONS OF HOLOGRAPHIC OPTICS II
2 other sections not shown
aberrations algorithm alignment amplitude aperture applications aspheric axis beam splitter beam steering beamformer binary optics CGH pattern CGH's collimated computer generated holograms computer-generated holograms configuration DCGH detector diameter diffraction orders diffractive lens diode laser e-beam electron beam encoding equation error signal exposure fabrication far-field focal length Fourier transform Fresnel fringe grating HOE's holographic disk holographic element holographic optical element input intensity distribution interferometer iterative kinoform laser beam laser diode Laserad lenses lenslet light power lithography mask measured method microlens microns modulator off-axis optical disk optical head output beams performance phase function phase profile photomask photopolymer photoresist polarization produce quantization real-time reconstruction recording reference beam refractive scanning shown in Figure spatial filtering spatial frequency Spatial Light Modulator spherical SPIE spot steering angle STREHL RATIO subhologram substrate surface technique thermoplastic tracking error transmittance wavefront wavelength zone plate