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A partially linearized spin-mapping approach for nonadiabatic dynamics. I. Derivation of the theory

Jonathan R. Mannouch, Jeremy O. Richardson

2020The Journal of Chemical Physics48 citationsDOIOpen Access PDF

Abstract

We present a new partially linearized mapping-based approach for approximating real-time quantum correlation functions in condensed-phase nonadiabatic systems, called the spin partially linearized density matrix (spin-PLDM) approach. Within a classical trajectory picture, partially linearized methods treat the electronic dynamics along forward and backward paths separately by explicitly evolving two sets of mapping variables. Unlike previously derived partially linearized methods based on the Meyer-Miller-Stock-Thoss mapping, spin-PLDM uses the Stratonovich-Weyl transform to describe the electronic dynamics for each path within the spin-mapping space; this automatically restricts the Cartesian mapping variables to lie on a hypersphere and means that the classical equations of motion can no longer propagate the mapping variables out of the physical subspace. The presence of a rigorously derived zero-point energy parameter also distinguishes spin-PLDM from other partially linearized approaches. These new features appear to give the method superior accuracy for computing dynamical observables of interest when compared with other methods within the same class. The superior accuracy of spin-PLDM is demonstrated in this paper through application of the method to a wide range of spin-boson models as well as to the Fenna-Matthews-Olsen complex.

Topics & Concepts

TrajectoryObservableRange (aeronautics)HypersphereEquations of motionPath (computing)MathematicsPhysicsQuantumClassical mechanicsMatrix (chemical analysis)Statistical physicsDensity matrixMathematical analysisPotential energyCartesian coordinate systemEnergy (signal processing)Motion (physics)Rotation (mathematics)Action-angle coordinatesApplied mathematicsPath integral formulationSpectroscopy and Quantum Chemical StudiesAdvanced NMR Techniques and ApplicationsQuantum many-body systems
A partially linearized spin-mapping approach for nonadiabatic dynamics. I. Derivation of the theory | Litcius