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Amnon Yariv
Researcher at California Institute of Technology
Publications - 1084
Citations - 56928
Amnon Yariv is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Laser & Semiconductor laser theory. The author has an hindex of 103, co-authored 1082 publications receiving 55256 citations. Previous affiliations of Amnon Yariv include University of California, Santa Barbara & Watkins-Johnson Company.
Papers
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Supermode analysis of phase-locked arrays of semiconductor lasers
E. Kapon,Joseph Katz,Amnon Yariv +2 more
TL;DR: It is shown that the broadening in the far-field beam divergence, as well as the broadens of each of the longitudinal modes that were observed in phase-locked arrays, may arise from the excitation of an increasing number of supermodes at increasing pumping levels.
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Optical data storage by using orthogonal wavelength-multiplexed volume holograms
TL;DR: A volume holographic data storage scheme that employs counterpropagating reference and image beams and wavelength multiplexing for page differentation and a reduction in holographic cross talk is predicted.
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Periodic structures for integrated optics
Amnon Yariv,Michiharu Nakamura +1 more
TL;DR: In this article, the theory and device applications of periodic thin-film waveguides are discussed, including mode solutions, optical filters, distributed feedback lasers, distributed Bragg reflector (DBR) lasers, grating couplers, and phase matching in nonlinear interactions.
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Dark and bright photovoltaic spatial solitons
George C. Valley,Mordechai Segev,Bruno Crosignani,Amnon Yariv,Martin M. Fejer,Matthew C. Bashaw +5 more
TL;DR: Dark (bright) planar spatial solitons are predicted for photovoltaic photorefractive materials when the diffraction of an optical beam is exactly compensated by nonlinear self-defocusing (focusing) due to the photovvoltaic field and electro-optic effect.
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Fabrication of functional microstructured optical fibers through a selective-filling technique
Yanyi Huang,Yong Xu,Amnon Yariv +2 more
TL;DR: In this paper, a method for the fabrication of functional microstructured optical fibers (MOFs) by selectively filling the air holes with liquid phase materials, where the dependence of filling speed on the size of the air hole was exploited.