Control and measurement of ultrashort pulse shapes (in amplitude and phase) with femtosecond accuracy Export

by: J. C. M. Diels, J. J. Fontaine, I. C. Mcmichael, F. Simoni

Appl. Opt., Vol. 24 (May 1985), pp. 1270-1282.

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amplitude, autocorrelation, correlation, fe, femtosecond, interferometry, iron, phase, pulse, pulses, ultrafast

Abstract

Accurate correlation techniques are used to analyze the performance characteristics of a tunable, femtosecond pulse dye laser which is passively mode locked and uses either one or two intracavity prisms to control frequency and its modulation. The main advantages of the interferometric second-order autocorrelations used are the provision of phase information and a high sensitivity to pulse shape. A numerical method is used to analyze the more complex pulse shapes and chirps generated by the laser. Comparisons of autocorrelations and cross correlations calculated for the dispersed pulses with actual measurements demonstrate the accuracy of the fitting procedure used.

@article{citeulike:1587056, abstract = {Accurate correlation techniques are used to analyze the performance characteristics of a tunable, femtosecond pulse dye laser which is passively mode locked and uses either one or two intracavity prisms to control frequency and its modulation. The main advantages of the interferometric second-order autocorrelations used are the provision of phase information and a high sensitivity to pulse shape. A numerical method is used to analyze the more complex pulse shapes and chirps generated by the laser. Comparisons of autocorrelations and cross correlations calculated for the dispersed pulses with actual measurements demonstrate the accuracy of the fitting procedure used.}, author = {Diels, J. C. M. and Fontaine, J. J. and Mcmichael, I. C. and Simoni, F.}, citeulike-article-id = {1587056}, citeulike-linkout-0 = {http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=1985ApOpt..24.1270D}, journal = {Appl. Opt.}, keywords = {amplitude, autocorrelation, correlation, fe, iron, phase, pulses, ultrafast}, month = {May}, pages = {1270--1282}, posted-at = {2007-08-24 02:52:47}, priority = {2}, title = {Control and measurement of ultrashort pulse shapes (in amplitude and phase) with femtosecond accuracy}, url = {http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=1985ApOpt..24.1270D}, volume = {24}, year = {1985} }

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TY - JOUR ID - citeulike:1587056 L3 - citeulike-article-id:1587056 N2 - Accurate correlation techniques are used to analyze the performance characteristics of a tunable, femtosecond pulse dye laser which is passively mode locked and uses either one or two intracavity prisms to control frequency and its modulation. The main advantages of the interferometric second-order autocorrelations used are the provision of phase information and a high sensitivity to pulse shape. A numerical method is used to analyze the more complex pulse shapes and chirps generated by the laser. Comparisons of autocorrelations and cross correlations calculated for the dispersed pulses with actual measurements demonstrate the accuracy of the fitting procedure used. JF - Appl. Opt. EP - 1282 TI - Control and measurement of ultrashort pulse shapes (in amplitude and phase) with femtosecond accuracy VL - 24 SP - 1270 KW - amplitude KW - autocorrelation KW - correlation KW - fe KW - iron KW - phase KW - pulses KW - ultrafast AU - Diels, JCM AU - Fontaine, JJ AU - Mcmichael, IC AU - Simoni, F PY - 1985/May// UR - http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=1985ApOpt..24.1270D ER -

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