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      GRENOUILLE - Practical issues: a quick manual

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          Abstract

          This paper is the result of setting up GRENOUILLE in the Nonlinear Dynamics Laboratory at the University of Maryland at College Park. With the experience acquired in the process of setting up GRENOUILLE, this manual was compiled from literature and from hand-on experience to serve as a quick guide, a step-by-step help to construct GRENOUILLE and to understand some of its basic principles.

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          • Record: found
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          Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating

          David Fittinghoff, Daniel Kane, Bruce Richman (1997)
          Article 0 comments Cited 210 times – based on 0 reviews     Review now
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            Frequency-resolved optical gating with the use of second-harmonic generation

            J. Hunter, Rick Trebino, K. W. DeLong (1994)
            Article 0 comments Cited 67 times – based on 0 reviews     Review now
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              Single-shot measurement of the intensity and phase of an arbitrary ultrashort pulse by using frequency-resolved optical gating.

              D. J. Kane, R Trebino (1993)
              We introduce a new technique, frequency-resolved optical gating, for measuring the intensity I(t) and the phase ø(t) of an individual arbitrary ultrashort pulse. Using an instantaneous nonlinear-optical interaction of two variably delayed replicas of the pulse, frequency-resolved optical gating involves measuring the spectrum of the signal pulse versus relative delay. The resulting trace, a spectrogram, yields an intuitive full-information display of the pulse. Inversion of this trace to obtain the pulse intensity and phase is equivalent to the well-known two-dimensional phase-retrieval problem and thus yields essentially unambiguous results for I(t) and ø(t).
              Article 0 comments Cited 54 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Publication date Created: 22 December 2003
                Article
                ArXiV ID: physics/0312134
                SO-VID: 2de428b2-8393-4e84-8ab7-256a761b3995
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                Comments 9 pages of final pdf. 6 figures all eps files
                Categories physics.optics

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