High harmonic XUV spectral phase interferometry for direct electric-field reconstruction

Y. Mairesse; O. Gobert; P. Breger; H. Merdji; P. Meynadier; P. Monchicourt; M. Perdrix; P. Salières; B. Carré

doi:10.1103/PhysRevLett.94.173903

High harmonic XUV spectral phase interferometry for direct electric-field reconstruction

Y. Mairesse
, O. Gobert
, P. Breger
, H. Merdji
, P. Meynadier
, P. Monchicourt
, M. Perdrix
, P. Salières
, B. Carré

DSM/SPAM

Research output: Contribution to journal › Article › peer-review

Abstract

We demonstrate the first experimental complete temporal characterization of high-harmonic XUV pulses by spectral phase interferometry, with an all-optical setup. This method allows us to perform single-shot measurements of the harmonic temporal profile and phase, revealing a remarkable shot-to-shot stability. We characterize harmonics generated in argon by a 50 fs 800 nm laser pulse. The 11th harmonic is found to be 22 fs long with a negative chirp rate of -4.8×1027s-2. This duration can be reduced to 13 fs by modulating the polarization of the generating laser. The technique is easy to implement and could be routinely used in femtosecond XUV pump-probe experiments with harmonics.

Original language	English
Article number	173903
Journal	Physical Review Letters
Volume	94
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevLett.94.173903
Publication status	Published - 6 May 2005
Externally published	Yes

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title = "High harmonic XUV spectral phase interferometry for direct electric-field reconstruction",

abstract = "We demonstrate the first experimental complete temporal characterization of high-harmonic XUV pulses by spectral phase interferometry, with an all-optical setup. This method allows us to perform single-shot measurements of the harmonic temporal profile and phase, revealing a remarkable shot-to-shot stability. We characterize harmonics generated in argon by a 50 fs 800 nm laser pulse. The 11th harmonic is found to be 22 fs long with a negative chirp rate of -4.8×1027s-2. This duration can be reduced to 13 fs by modulating the polarization of the generating laser. The technique is easy to implement and could be routinely used in femtosecond XUV pump-probe experiments with harmonics.",

author = "Y. Mairesse and O. Gobert and P. Breger and H. Merdji and P. Meynadier and P. Monchicourt and M. Perdrix and P. Sali{\`e}res and B. Carr{\'e}",

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T1 - High harmonic XUV spectral phase interferometry for direct electric-field reconstruction

AU - Mairesse, Y.

AU - Gobert, O.

AU - Breger, P.

AU - Merdji, H.

AU - Meynadier, P.

AU - Monchicourt, P.

AU - Perdrix, M.

AU - Salières, P.

AU - Carré, B.

PY - 2005/5/6

Y1 - 2005/5/6

N2 - We demonstrate the first experimental complete temporal characterization of high-harmonic XUV pulses by spectral phase interferometry, with an all-optical setup. This method allows us to perform single-shot measurements of the harmonic temporal profile and phase, revealing a remarkable shot-to-shot stability. We characterize harmonics generated in argon by a 50 fs 800 nm laser pulse. The 11th harmonic is found to be 22 fs long with a negative chirp rate of -4.8×1027s-2. This duration can be reduced to 13 fs by modulating the polarization of the generating laser. The technique is easy to implement and could be routinely used in femtosecond XUV pump-probe experiments with harmonics.

AB - We demonstrate the first experimental complete temporal characterization of high-harmonic XUV pulses by spectral phase interferometry, with an all-optical setup. This method allows us to perform single-shot measurements of the harmonic temporal profile and phase, revealing a remarkable shot-to-shot stability. We characterize harmonics generated in argon by a 50 fs 800 nm laser pulse. The 11th harmonic is found to be 22 fs long with a negative chirp rate of -4.8×1027s-2. This duration can be reduced to 13 fs by modulating the polarization of the generating laser. The technique is easy to implement and could be routinely used in femtosecond XUV pump-probe experiments with harmonics.

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DO - 10.1103/PhysRevLett.94.173903

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VL - 94

JO - Physical Review Letters

JF - Physical Review Letters

IS - 17

M1 - 173903

ER -

High harmonic XUV spectral phase interferometry for direct electric-field reconstruction

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