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Modeling Spin-Dependent Nonadiabatic Dynamics with Electronic Degeneracy: A Phase-Space Surface-Hopping Method

Xuezhi Bian, Yanze Wu, Jonathan Rawlinson, Robert G. Littlejohn, Joseph E. Subotnik

2022The Journal of Physical Chemistry Letters24 citationsDOIOpen Access PDF

Abstract

Nuclear Berry curvature effects emerge from electronic spin degeneracy and can lead to nontrivial spin-dependent (nonadiabatic) nuclear dynamics. However, such effects are not captured fully by any current mixed quantum-classical method such as fewest-switches surface hopping. In this work, we present a phase-space surface-hopping (PSSH) approach to simulate singlet-triplet intersystem crossing dynamics. We show that with a simple pseudodiabatic ansatz, a PSSH algorithm can capture the relevant Berry curvature effects and make predictions in agreement with exact quantum dynamics for a simple singlet-triplet model Hamiltonian. Thus, this approach represents an important step toward simulating photochemical and spin processes concomitantly, as relevant to intersystem crossing and spin-lattice relaxation dynamics.

Topics & Concepts

Surface hoppingDiabaticAnsatzIntersystem crossingHamiltonian (control theory)PhysicsBerry connection and curvaturePhase spaceSinglet stateQuantumQuantum dynamicsQuantum mechanicsGeometric phaseSpin (aerodynamics)Excited stateAdiabatic processMathematical optimizationThermodynamicsMathematicsSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum and electron transport phenomena
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