Stimulated X-ray Raman Imaging of Conical Intersections

Daeheum Cho; Shaul Mukamel

doi:10.1021/acs.jpclett.9b03020

Stimulated X-ray Raman Imaging of Conical Intersections

Daeheum Cho, Shaul Mukamel

University of California at Irvine

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

10 Scopus citations

Abstract

The conical intersection dynamics of thiophenol is studied theoretically using the stimulated X-ray Raman imaging (SXRI) technique. SXRI employs a hard X-ray narrowband/broadband hybrid probe field and provides a real-time and real-space image of the passage through conical intersections. The signal, calculated using the minimal-coupling radiation/matter Hamiltonian, carries the phase information, and the real-space image of the transition charge density can be reconstructed by its Fourier transform. The two conical intersections (S₂/S₁ (1¹ππ∗/¹πσ ∗) and S₁/S₀ (¹πσ ∗/S₀)) can be distinguished and identified by the diffraction patterns in the level crossing regimes.

Original language	English
Pages (from-to)	33-39
Number of pages	7
Journal	Journal of Physical Chemistry Letters
Volume	11
Issue number	1
DOIs	https://doi.org/10.1021/acs.jpclett.9b03020
State	Published - 2 Jan 2020

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title = "Stimulated X-ray Raman Imaging of Conical Intersections",

abstract = "The conical intersection dynamics of thiophenol is studied theoretically using the stimulated X-ray Raman imaging (SXRI) technique. SXRI employs a hard X-ray narrowband/broadband hybrid probe field and provides a real-time and real-space image of the passage through conical intersections. The signal, calculated using the minimal-coupling radiation/matter Hamiltonian, carries the phase information, and the real-space image of the transition charge density can be reconstructed by its Fourier transform. The two conical intersections (S2/S1 (11ππ∗/1πσ ∗) and S1/S0 (1πσ ∗/S0)) can be distinguished and identified by the diffraction patterns in the level crossing regimes.",

author = "Daeheum Cho and Shaul Mukamel",

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AU - Mukamel, Shaul

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N2 - The conical intersection dynamics of thiophenol is studied theoretically using the stimulated X-ray Raman imaging (SXRI) technique. SXRI employs a hard X-ray narrowband/broadband hybrid probe field and provides a real-time and real-space image of the passage through conical intersections. The signal, calculated using the minimal-coupling radiation/matter Hamiltonian, carries the phase information, and the real-space image of the transition charge density can be reconstructed by its Fourier transform. The two conical intersections (S2/S1 (11ππ∗/1πσ ∗) and S1/S0 (1πσ ∗/S0)) can be distinguished and identified by the diffraction patterns in the level crossing regimes.

AB - The conical intersection dynamics of thiophenol is studied theoretically using the stimulated X-ray Raman imaging (SXRI) technique. SXRI employs a hard X-ray narrowband/broadband hybrid probe field and provides a real-time and real-space image of the passage through conical intersections. The signal, calculated using the minimal-coupling radiation/matter Hamiltonian, carries the phase information, and the real-space image of the transition charge density can be reconstructed by its Fourier transform. The two conical intersections (S2/S1 (11ππ∗/1πσ ∗) and S1/S0 (1πσ ∗/S0)) can be distinguished and identified by the diffraction patterns in the level crossing regimes.

UR - https://www.scopus.com/pages/publications/85076745378

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DO - 10.1021/acs.jpclett.9b03020

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EP - 39

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 1

ER -

Stimulated X-ray Raman Imaging of Conical Intersections

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