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Main Authors: Chakraborty, Anish, Samanta, Pradipta Kumar, Maitra, Rahul
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.15506
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author Chakraborty, Anish
Samanta, Pradipta Kumar
Maitra, Rahul
author_facet Chakraborty, Anish
Samanta, Pradipta Kumar
Maitra, Rahul
contents The calculation of molecular excited states is critically important to decipher a plethora of molecular properties. In this manuscript, we develop an equation of motion formalism on top of a bi-exponentially parametrized ground state wavefunction towards the determination of excited states. While the ground state bi-exponential parametrization ensures an accurate description of the wavefunction through the inclusion of high-rank correlation effects, the excited state is parametrized by a novel linear response operator with an effective excitation rank beyond two. To treat the ground and the excited states in the same footings, in addition to the conventional one and two-body response operators, we introduced certain two-body "generalized" response operators with an effective excitation rank of one. We introduce a projective formulation towards the determination of the perturbed amplitudes for the set of "generalized" operators. Our formulation entails a significantly small number of unknown parameters and is shown to be highly accurate compared to allied methods for several difficult chemical systems.
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institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Accurate determination of excitation energy: An equation-of-motion approach over a bi-exponential Coupled Cluster theory
Chakraborty, Anish
Samanta, Pradipta Kumar
Maitra, Rahul
Chemical Physics
The calculation of molecular excited states is critically important to decipher a plethora of molecular properties. In this manuscript, we develop an equation of motion formalism on top of a bi-exponentially parametrized ground state wavefunction towards the determination of excited states. While the ground state bi-exponential parametrization ensures an accurate description of the wavefunction through the inclusion of high-rank correlation effects, the excited state is parametrized by a novel linear response operator with an effective excitation rank beyond two. To treat the ground and the excited states in the same footings, in addition to the conventional one and two-body response operators, we introduced certain two-body "generalized" response operators with an effective excitation rank of one. We introduce a projective formulation towards the determination of the perturbed amplitudes for the set of "generalized" operators. Our formulation entails a significantly small number of unknown parameters and is shown to be highly accurate compared to allied methods for several difficult chemical systems.
title Accurate determination of excitation energy: An equation-of-motion approach over a bi-exponential Coupled Cluster theory
topic Chemical Physics
url https://arxiv.org/abs/2308.15506