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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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Journal ArticleDOI
Semi-self-pumped phase-conjugate mirrors.
Mark Cronin-Golomb,Amnon Yariv +1 more
TL;DR: In this article, the authors describe semi-self-pumped photorefractive phase-conjugate mirrors based on the unidirectional ring resonator and the double phase conjugate mirror.
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Linewidth reduction and frequency stabilization of semiconductor lasers using dispersive losses in an atomic vapor
TL;DR: In this article, a van der Pol analysis is used to obtain expressions for linewidth reduction and chirp reduction in an arbitrary optical feedback configuration, and it is shown that under certain operating conditions the frequency-dependent amplitude changes from the atomic vapor also contribute to the reduction.
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Fidelity of polarization and spatial information recovery using a fiber-coupled phase-conjugate mirror
TL;DR: The investigation of polarization and spatial information recovery using a fiber-coupled phase-conjugate mirror and a theoretical model for these phenomena is discussed.
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Order-of-magnitude reduction of the photorefractive response time in rhodium-doped Sr(0.6)Ba(0.4)Nb(2)O(6) with a dc electric field.
TL;DR: This first report on the photorefractive properties of Rh-doped Sr(0.6)Ba( 0.4)Nb(2)O(6) and experimental results showing a reduction of the photOREfractive two-beam coupling response time by more than an order of magnitude with an external dc field of 10 kV/cm are presented.
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Experimental Procedure for the Determination of Cavity Parameters
Amnon Yariv,Fred D. Clapp +1 more
TL;DR: In this article, a new experimental procedure for the determination of cavity parameters is described, based on the basic steps described by Slater, which measures the frequencies at which the voltage standing wave ratio at the input to the cavity reaches a predetermined value.