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Literature DB >> 24089756

Time-resolved broadband Raman spectroscopies: a unified six-wave-mixing representation.

Konstantin E Dorfman¹, Benjamin P Fingerhut, Shaul Mukamel.

Abstract

Excited-state vibrational dynamics in molecules can be studied by an electronically off-resonant Raman process induced by a probe pulse with variable delay with respect to an actinic pulse. We establish the connection between several variants of the technique that involve either spontaneous or stimulated Raman detection and different pulse configurations. By using loop diagrams in the frequency domain, we show that all signals can be described as six wave mixing which depend on the same four point molecular correlation functions involving two transition dipoles and two polarizabilities and accompanied by a different gating. Simulations for the stochastic two-state-jump model illustrate the origin of the absorptive and dispersive features observed experimentally.

Mesh：

Year: 2013 PMID： 24089756 PMCID： PMC3795756 DOI： 10.1063/1.4821228

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

19 in total

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2. Structural observation of the primary isomerization in vision with femtosecond-stimulated Raman.

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8. Direct observation of cooling of heme upon photodissociation of carbonmonoxy myoglobin.

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5. Electronic resonances in broadband stimulated Raman spectroscopy.

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6. Discovering a rotational barrier within a charge-transfer state of a photoexcited chromophore in solution.

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7. Probing the Conical Intersection Dynamics of the RNA Base Uracil by UV-Pump Stimulated-Raman-Probe Signals; Ab Initio Simulations.

Authors: Benjamin P Fingerhut; Konstantin E Dorfman; Shaul Mukamel
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