Can surface hopping sans decoherence recover marcus theory? Understanding the role of friction in a surface hopping view of electron transfer

Martin J. Falk; Brian R. Landry; Joseph E. Subotnik

doi:10.1021/jp5011346

Can surface hopping sans decoherence recover marcus theory? Understanding the role of friction in a surface hopping view of electron transfer

Martin J. Falk, Brian R. Landry, Joseph E. Subotnik

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23 Scopus citations

Abstract

We compare the dynamics of Fewest Switches Surface Hopping (FSSH) in different parameter regimes of the spin-boson model. We show that for exceptional regions of the spin-boson parameter space, FSSH dynamics are in fact time-reversible. In these rare instances, FSSH does recover the correct Marcus rate scaling (as a function of diabatic coupling) without the addition of decoherence. In regions where dynamics are irreversible, however, FSSH does not recover the correct Marcus rate scaling. Finally, by comparing the friction dependence of rates predicted by various decoherence schemes to an analytic result by Zusman, we provide yet more evidence that the method of introducing decoherence has a qualitative effect on the accuracy of results and this effect must be treated carefully.

Original language	English (US)
Pages (from-to)	8108-8117
Number of pages	10
Journal	Journal of Physical Chemistry B
Volume	118
Issue number	28
DOIs	https://doi.org/10.1021/jp5011346
State	Published - Jul 17 2014
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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title = "Can surface hopping sans decoherence recover marcus theory? Understanding the role of friction in a surface hopping view of electron transfer",

abstract = "We compare the dynamics of Fewest Switches Surface Hopping (FSSH) in different parameter regimes of the spin-boson model. We show that for exceptional regions of the spin-boson parameter space, FSSH dynamics are in fact time-reversible. In these rare instances, FSSH does recover the correct Marcus rate scaling (as a function of diabatic coupling) without the addition of decoherence. In regions where dynamics are irreversible, however, FSSH does not recover the correct Marcus rate scaling. Finally, by comparing the friction dependence of rates predicted by various decoherence schemes to an analytic result by Zusman, we provide yet more evidence that the method of introducing decoherence has a qualitative effect on the accuracy of results and this effect must be treated carefully.",

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T1 - Can surface hopping sans decoherence recover marcus theory? Understanding the role of friction in a surface hopping view of electron transfer

AU - Falk, Martin J.

AU - Landry, Brian R.

AU - Subotnik, Joseph E.

PY - 2014/7/17

Y1 - 2014/7/17

N2 - We compare the dynamics of Fewest Switches Surface Hopping (FSSH) in different parameter regimes of the spin-boson model. We show that for exceptional regions of the spin-boson parameter space, FSSH dynamics are in fact time-reversible. In these rare instances, FSSH does recover the correct Marcus rate scaling (as a function of diabatic coupling) without the addition of decoherence. In regions where dynamics are irreversible, however, FSSH does not recover the correct Marcus rate scaling. Finally, by comparing the friction dependence of rates predicted by various decoherence schemes to an analytic result by Zusman, we provide yet more evidence that the method of introducing decoherence has a qualitative effect on the accuracy of results and this effect must be treated carefully.

AB - We compare the dynamics of Fewest Switches Surface Hopping (FSSH) in different parameter regimes of the spin-boson model. We show that for exceptional regions of the spin-boson parameter space, FSSH dynamics are in fact time-reversible. In these rare instances, FSSH does recover the correct Marcus rate scaling (as a function of diabatic coupling) without the addition of decoherence. In regions where dynamics are irreversible, however, FSSH does not recover the correct Marcus rate scaling. Finally, by comparing the friction dependence of rates predicted by various decoherence schemes to an analytic result by Zusman, we provide yet more evidence that the method of introducing decoherence has a qualitative effect on the accuracy of results and this effect must be treated carefully.

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Can surface hopping sans decoherence recover marcus theory? Understanding the role of friction in a surface hopping view of electron transfer

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