Decoherence-induced surface hopping
University of Washington · University of Rochester
Abstract
A simple surface hopping method for nonadiabatic molecular dynamics is developed. The method derives from a stochastic modeling of the time-dependent Schrödinger and master equations for open systems and accounts simultaneously for quantum mechanical branching in the otherwise classical (nuclear) degrees of freedom and loss of coherence within the quantum (electronic) subsystem due to coupling to nuclei. Electronic dynamics in the Hilbert space takes the form of a unitary evolution, intermittent with stochastic decoherence events that are manifested as a localization toward (adiabatic) basis states. Classical particles evolve along a single potential energy surface and can switch surfaces only at the…
Citation impact
- FWCI
- 10.67
- Percentile
- 100%
- References
- 121
Authors
3Topics & keywords
- Surface hopping
- Quantum decoherence
- Coherence (philosophical gambling strategy)
- Quantum
- Quantum mechanics
- Physics
- Statistical physics
- Hilbert space
- Peace, Justice and strong institutions