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Implementation of real‐time <scp>TDDFT</scp> for periodic systems in the open‐source <scp>PySCF</scp> software package

Kota Hanasaki, Zulfikhar A. Ali, Min Choi, Mauro Del Ben, Bryan M. Wong

2022Journal of Computational Chemistry25 citationsDOIOpen Access PDF

Abstract

Abstract We present a new implementation of real‐time time‐dependent density functional theory (RT‐TDDFT) for calculating excited‐state dynamics of periodic systems in the open‐source Python‐based PySCF software package. Our implementation uses Gaussian basis functions in a velocity gauge formalism and can be applied to periodic surfaces, condensed‐phase, and molecular systems. As representative benchmark applications, we present optical absorption calculations of various molecular and bulk systems and a real‐time simulation of field‐induced dynamics of a (ZnO) 4 molecular cluster on a periodic graphene sheet. We present representative calculations on optical response of solids to infinitesimal external fields as well as real‐time charge‐transfer dynamics induced by strong pulsed laser fields. Due to the widespread use of the Python language, our RT‐TDDFT implementation can be easily modified and provides a new capability in the PySCF code for real‐time excited‐state calculations of chemical and material systems.

Topics & Concepts

Time-dependent density functional theoryExcited statePython (programming language)Molecular dynamicsComputer scienceDensity functional theoryComputational scienceComputational physicsPhysicsStatistical physicsChemical physicsChemistryComputational chemistryAtomic physicsOperating systemSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesSpectroscopy and Laser Applications
Implementation of real‐time <scp>TDDFT</scp> for periodic systems in the open‐source <scp>PySCF</scp> software package | Litcius