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Main Authors: Ino, Yusuke, Yonekawa, Misaki, Yuzawa, Hideto, Minato, Yuichiro, Sugisaki, Kenji
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.16375
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author Ino, Yusuke
Yonekawa, Misaki
Yuzawa, Hideto
Minato, Yuichiro
Sugisaki, Kenji
author_facet Ino, Yusuke
Yonekawa, Misaki
Yuzawa, Hideto
Minato, Yuichiro
Sugisaki, Kenji
contents Quantum computers are expected to perform the full-configuration interaction calculations with less computational resources compared to classical ones, thanks to the use of the quantum phase estimation (QPE) algorithms. However, only a limited number of the QPE-based quantum chemical calculations have been reported even for numerical simulations on a classical computer, and the practical workflow for the QPE computation has not yet been established. In this paper, we report the QPE simulations of the electronic ground and the π-π* excited singlet state of benzene and its chloro- and nitroderivatives as the representative industrially important systems, with the aid of GPGPU acceleration of quantum circuit simulations. We adopted the pseudo-natural orbitals obtained from the MP2 calculation as the basis for the wave function expansion, the CISD calculation within the active space to find the main electronic configurations to be included in the input wave function of the excited state, and the technique to reduce the truncation error the calculated total energies. The proposed computational workflow is easily applicable to other molecules and can be a standard approach for performing the QPE-based quantum chemical calculations of practical molecules.
format Preprint
id arxiv_https___arxiv_org_abs_2312_16375
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Workflow for practical quantum chemical calculations with quantum phase estimation algorithm: electronic ground and π-π* excited states of benzene and its derivatives†
Ino, Yusuke
Yonekawa, Misaki
Yuzawa, Hideto
Minato, Yuichiro
Sugisaki, Kenji
Quantum Physics
Quantum computers are expected to perform the full-configuration interaction calculations with less computational resources compared to classical ones, thanks to the use of the quantum phase estimation (QPE) algorithms. However, only a limited number of the QPE-based quantum chemical calculations have been reported even for numerical simulations on a classical computer, and the practical workflow for the QPE computation has not yet been established. In this paper, we report the QPE simulations of the electronic ground and the π-π* excited singlet state of benzene and its chloro- and nitroderivatives as the representative industrially important systems, with the aid of GPGPU acceleration of quantum circuit simulations. We adopted the pseudo-natural orbitals obtained from the MP2 calculation as the basis for the wave function expansion, the CISD calculation within the active space to find the main electronic configurations to be included in the input wave function of the excited state, and the technique to reduce the truncation error the calculated total energies. The proposed computational workflow is easily applicable to other molecules and can be a standard approach for performing the QPE-based quantum chemical calculations of practical molecules.
title Workflow for practical quantum chemical calculations with quantum phase estimation algorithm: electronic ground and π-π* excited states of benzene and its derivatives†
topic Quantum Physics
url https://arxiv.org/abs/2312.16375