Induced-grating autocorrelation of ultrashort pulses in a slowly responding medium

We consider induced-grating autocorrelation (IGA) in a slowly responding medium and study three possible geometries (two-beam coupling, three-beam induced grating, and self-diffraction) in two different limiting cases (single-pulse experiments and many-pulse accumulated-grating experiments). We find...

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Veröffentlicht in:	Journal of the Optical Society of America. B, Optical physics Optical physics, 1994-09, Vol.11 (9), p.1609
Hauptverfasser:	Levine, Alfred M., Özizmir, Ercüment, Trebino, Rick, Hayden, Carl C., Johnson, Anthony M., Tokuda, Kathleen L.
Format:	Artikel
Sprache:	eng
Schlagworte:	CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS CORRELATION FUNCTIONS ELECTROMAGNETIC RADIATION ELECTROMAGNETISM FUNCTIONS LASER RADIATION MAGNETISM NONLINEAR OPTICS OPTICS PULSE TECHNIQUES RADIATIONS 661300 > Other Aspects of Physical Science-- (1992-)
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container_issue	9
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container_title	Journal of the Optical Society of America. B, Optical physics
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creator	Levine, Alfred M. Özizmir, Ercüment Trebino, Rick Hayden, Carl C. Johnson, Anthony M. Tokuda, Kathleen L.
description	We consider induced-grating autocorrelation (IGA) in a slowly responding medium and study three possible geometries (two-beam coupling, three-beam induced grating, and self-diffraction) in two different limiting cases (single-pulse experiments and many-pulse accumulated-grating experiments). We find that in five of these six cases the IGA trace is given by the squared amplitude of the electric-field correlation function, thus yielding information about the spectrum of the pulse. Theoretical expressions for the IGA trace are derived for both linearly chirped and self-phase-modulated pulses. Experiments performed with self-phase-modulated pulses are in excellent agreement with the theory. In this case we show how the measured IGA trace can be used to determine both pulse duration and pulse bandwidth.
doi_str_mv	10.1364/JOSAB.11.001609
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We find that in five of these six cases the IGA trace is given by the squared amplitude of the electric-field correlation function, thus yielding information about the spectrum of the pulse. Theoretical expressions for the IGA trace are derived for both linearly chirped and self-phase-modulated pulses. Experiments performed with self-phase-modulated pulses are in excellent agreement with the theory. 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B, Optical physics</title><description>We consider induced-grating autocorrelation (IGA) in a slowly responding medium and study three possible geometries (two-beam coupling, three-beam induced grating, and self-diffraction) in two different limiting cases (single-pulse experiments and many-pulse accumulated-grating experiments). We find that in five of these six cases the IGA trace is given by the squared amplitude of the electric-field correlation function, thus yielding information about the spectrum of the pulse. Theoretical expressions for the IGA trace are derived for both linearly chirped and self-phase-modulated pulses. Experiments performed with self-phase-modulated pulses are in excellent agreement with the theory. 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B, Optical physics</jtitle><date>1994-09-01</date><risdate>1994</risdate><volume>11</volume><issue>9</issue><spage>1609</spage><pages>1609-</pages><issn>0740-3224</issn><eissn>1520-8540</eissn><abstract>We consider induced-grating autocorrelation (IGA) in a slowly responding medium and study three possible geometries (two-beam coupling, three-beam induced grating, and self-diffraction) in two different limiting cases (single-pulse experiments and many-pulse accumulated-grating experiments). We find that in five of these six cases the IGA trace is given by the squared amplitude of the electric-field correlation function, thus yielding information about the spectrum of the pulse. Theoretical expressions for the IGA trace are derived for both linearly chirped and self-phase-modulated pulses. Experiments performed with self-phase-modulated pulses are in excellent agreement with the theory. In this case we show how the measured IGA trace can be used to determine both pulse duration and pulse bandwidth.</abstract><cop>United States</cop><doi>10.1364/JOSAB.11.001609</doi></addata></record>
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subjects	CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS CORRELATION FUNCTIONS ELECTROMAGNETIC RADIATION ELECTROMAGNETISM FUNCTIONS LASER RADIATION MAGNETISM NONLINEAR OPTICS OPTICS PULSE TECHNIQUES RADIATIONS 661300 -- Other Aspects of Physical Science-- (1992-)
title	Induced-grating autocorrelation of ultrashort pulses in a slowly responding medium
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