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Efficient propagation of the hierarchical equations of motion using the Tucker and hierarchical Tucker tensors

Yaming Yan, Meng Xu, Tianchu Li, Qiang Shi

2021The Journal of Chemical Physics70 citationsDOI

Abstract

We develop new methods to efficiently propagate the hierarchical equations of motion (HEOM) by using the Tucker and hierarchical Tucker (HT) tensors to represent the reduced density operator and auxiliary density operators. We first show that by employing the split operator method, the specific structure of the HEOM allows a simple propagation scheme using the Tucker tensor. When the number of effective modes in the HEOM increases and the Tucker representation becomes intractable, the split operator method is extended to the binary tree structure of the HT representation. It is found that to update the binary tree nodes related to a specific effective mode, we only need to propagate a short matrix product state constructed from these nodes. Numerical results show that by further employing the mode combination technique commonly used in the multi-configuration time-dependent Hartree approaches, the binary tree representation can be applied to study excitation energy transfer dynamics in a fairly large system including over 104 effective modes. The new methods may thus provide a promising tool in simulating quantum dynamics in condensed phases.

Topics & Concepts

Operator (biology)Representation (politics)Equations of motionBinary numberTucker decompositionTree (set theory)Statistical physicsTensor (intrinsic definition)Applied mathematicsMatrix (chemical analysis)Binary treeMathematicsComputer sciencePhysicsClassical mechanicsAlgorithmMathematical analysisPure mathematicsLawTensor decompositionChemistryPolitical scienceTranscription factorComposite materialRepressorPoliticsArithmeticGeneBiochemistryMaterials scienceQuantum, superfluid, helium dynamicsTensor decomposition and applicationsAdvanced NMR Techniques and Applications
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