Issue 39, 2020

Quantum equilibration of the double-proton transfer in a model system porphine

Abstract

There is a renewed interest in the derivation of statistical mechanics from the dynamics of closed quantum systems. A central part of this program is to understand how closed quantum systems, i.e., in the absence of a thermal bath, initialized far-from-equilibrium can share a dynamics that is typical to the relaxation towards thermal equilibrium. Equilibration dynamics has been traditionally studied with a focus on the so-called quenches of large-scale many-body systems. We consider here the equilibration of a two-dimensional molecular model system describing the double proton transfer reaction in porphine. Using numerical simulations, we show that equilibration indeed takes place very rapidly (∼200 fs) for initial states induced by pump–dump laser pulse control with energies well above the synchronous barrier. The resulting equilibration state is characterized by a strong delocalization of the probability density of the protons that can be explained, mechanistically, as the result of (i) an initial state consisting of a large superposition of vibrational states, and (ii) the presence of a very effective dephasing mechanism.

Graphical abstract: Quantum equilibration of the double-proton transfer in a model system porphine

Supplementary files

Article information

Article type
Paper
Submitted
03 Jun 2020
Accepted
07 Sep 2020
First published
14 Sep 2020
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2020,22, 22332-22341

Quantum equilibration of the double-proton transfer in a model system porphine

G. Albareda, A. Riera, M. González, J. M. Bofill, I. D. P. R. Moreira, R. Valero and I. Tavernelli, Phys. Chem. Chem. Phys., 2020, 22, 22332 DOI: 10.1039/D0CP02991B

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