Two-Dimensional Frequency Resolved Optomolecular Gating of High-Order Harmonic Generation

A. Ferré; H. Soifer; O. Pedatzur; C. Bourassin-Bouchet; B. D. Bruner; R. Canonge; F. Catoire; D. Descamps; B. Fabre; E. Mével; S. Petit; N. Dudovich; Y. Mairesse

doi:https://doi.org/10.1103/PhysRevLett.116.053002

Two-Dimensional Frequency Resolved Optomolecular Gating of High-Order Harmonic Generation

A. Ferré, H. Soifer, O. Pedatzur, C. Bourassin-Bouchet, B. D. Bruner, R. Canonge, F. Catoire, D. Descamps, B. Fabre, E. Mével, S. Petit, N. Dudovich, Y. Mairesse

Department of Physics of Complex Systems

Weizmann Institute of Science

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

Abstract

Probing electronic wave functions of polyatomic molecules is one of the major challenges in high-harmonic spectroscopy. The extremely nonlinear nature of the laser-molecule interaction couples the multiple degrees of freedom of the probed system. We combine two-dimensional control of the electron trajectories and vibrational control of the molecules to disentangle the two main steps in high-harmonic generation - ionization and recombination. We introduce a new measurement scheme, frequency-resolved optomolecular gating, which resolves the temporal amplitude and phase of the harmonic emission from excited molecules. Focusing on the study of vibrational motion in N2O4, we show that such advanced schemes provide a unique insight into the structural and dynamical properties of the underlying mechanism.

Original language	English
Article number	053002
Journal	Physical Review Letters
Volume	116
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.116.053002
State	Published - 2 Feb 2016

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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https://doi.org/10.1103/PhysRevLett.116.053002

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Ferré, A., Soifer, H., Pedatzur, O., Bourassin-Bouchet, C., Bruner, B. D., Canonge, R., Catoire, F., Descamps, D., Fabre, B., Mével, E., Petit, S., Dudovich, N., & Mairesse, Y. (2016). Two-Dimensional Frequency Resolved Optomolecular Gating of High-Order Harmonic Generation. Physical Review Letters, 116(5), Article 053002. https://doi.org/10.1103/PhysRevLett.116.053002

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abstract = "Probing electronic wave functions of polyatomic molecules is one of the major challenges in high-harmonic spectroscopy. The extremely nonlinear nature of the laser-molecule interaction couples the multiple degrees of freedom of the probed system. We combine two-dimensional control of the electron trajectories and vibrational control of the molecules to disentangle the two main steps in high-harmonic generation - ionization and recombination. We introduce a new measurement scheme, frequency-resolved optomolecular gating, which resolves the temporal amplitude and phase of the harmonic emission from excited molecules. Focusing on the study of vibrational motion in N2O4, we show that such advanced schemes provide a unique insight into the structural and dynamical properties of the underlying mechanism.",

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AU - Soifer, H.

AU - Pedatzur, O.

AU - Bourassin-Bouchet, C.

AU - Bruner, B. D.

AU - Canonge, R.

AU - Catoire, F.

AU - Descamps, D.

AU - Fabre, B.

AU - Mével, E.

AU - Petit, S.

AU - Dudovich, N.

AU - Mairesse, Y.

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AB - Probing electronic wave functions of polyatomic molecules is one of the major challenges in high-harmonic spectroscopy. The extremely nonlinear nature of the laser-molecule interaction couples the multiple degrees of freedom of the probed system. We combine two-dimensional control of the electron trajectories and vibrational control of the molecules to disentangle the two main steps in high-harmonic generation - ionization and recombination. We introduce a new measurement scheme, frequency-resolved optomolecular gating, which resolves the temporal amplitude and phase of the harmonic emission from excited molecules. Focusing on the study of vibrational motion in N2O4, we show that such advanced schemes provide a unique insight into the structural and dynamical properties of the underlying mechanism.

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Two-Dimensional Frequency Resolved Optomolecular Gating of High-Order Harmonic Generation

Abstract

All Science Journal Classification (ASJC) codes

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