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Special issue on Diffractive Optics
Journal of Modern Optics, 1996(1996). Special issue on diffractive optics. Journal of Modern Optics: Vol. 43, No. 7, pp. 1307-1307.
Jari Turunen, Frank Wyrowski
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Diffractive Optics and Optical Microsystems
1997Theory and Design: Diffractive Optics: An Introduction F. Gori. Design of Refractive and Diffractive Micro-Optics H.P. Herzig. GRIN Planar Structures for Focusing, Collimation and Beam Size Control C. Gomez-Reino, et al. Materials and Processes: Microfabrication Technologies for Integrated Optical Devices G.C. Righini, M.A. Forastiere.
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Diffractive Optics I Diffraction Gratings
1986Two types of diffractive optics are used in soft X-ray optical systems—linear gratings, on either plane or shaped substrates, and zone plates. The former are employed in, for example, soft X-ray monochromators and spectrometers, while the latter are of use in image-forming systems such as microscopes and telescopes.
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Fisher information as the basis for diffraction optics
Optics Letters, 1988An unknown probability law p(x) can be efficiently estimated using a smoothness enforcing principle I=∫dxp'(x)2/p(x) = minimum, called minimum Fisher information (MFI). An unknown diffraction pattern is an unknown probability law (on photon position x).
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[1989] Proceedings of the Twenty-Second Annual Hawaii International Conference on System Sciences. Volume 1: Architecture Track, 2003
Diffractive optical elements that can be used to manipulate the amplitude, phase, and polarization of a wavefront in very complex ways are treated. Optical components whose feature size is larger than one wavelength, about equal to one wavelength, and smaller than one wavelength are considered.
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Diffractive optical elements that can be used to manipulate the amplitude, phase, and polarization of a wavefront in very complex ways are treated. Optical components whose feature size is larger than one wavelength, about equal to one wavelength, and smaller than one wavelength are considered.
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Diffractive Optics and Micro-Optics, 1996
The diffractive optics community has embraced the lithographic methods used in the electronics industry1. Typically, binary transmission masks are used to expose resist and produce stepped structures which approximate the ideal, continuous profiles. Since these profiles are approximations of the ideal, continuous profiles, the diffraction efficiency is
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The diffractive optics community has embraced the lithographic methods used in the electronics industry1. Typically, binary transmission masks are used to expose resist and produce stepped structures which approximate the ideal, continuous profiles. Since these profiles are approximations of the ideal, continuous profiles, the diffraction efficiency is
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Diffractive Optics and Micro-optics
Journal of the Optical Society of America A, 2001Joseph N. Mait, Hans Peter Herzig
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