Litcius/Paper detail

Quantum–classical nonadiabatic dynamics of Floquet driven systems

Marco Schirò, F. G. Eich, Federica Agostini

2021The Journal of Chemical Physics24 citationsDOIOpen Access PDF

Abstract

We develop a trajectory-based approach for excited-state molecular dynamics simulations of systems subject to an external periodic drive. We combine the exact-factorization formalism, allowing us to treat electron-nuclear systems in nonadiabatic regimes, with the Floquet formalism for time-periodic processes. The theory is developed starting with the molecular time-dependent Schrödinger equation with the inclusion of an external periodic drive that couples to the system dipole moment. With the support of the Floquet formalism, quantum dynamics is approximated by combining classical-like, trajectory-based, nuclear evolution with electronic dynamics represented in the Floquet basis. The resulting algorithm, which is an extension of the coupled-trajectory mixed quantum-classical scheme for periodically driven systems, is applied to a model study, exactly solvable, with different field intensities.

Topics & Concepts

Floquet theoryFormalism (music)QuantumPhysicsExcited stateClassical mechanicsSurface hoppingQuantum dynamicsSchrödinger equationDipoleFactorizationQuantum mechanicsMathematicsNonlinear systemVisual artsArtMusicalAlgorithmStrong Light-Matter InteractionsSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics Studies