The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions
This perspective presents an overview of the development of the hierarchy of Davydov’s Ansätze and a few of its applications in many-body problems in computational chemical physics. Davydov’s solitons originated in the investigations of vibrational energy transport in protein s in the 1970s. Momentu...
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sg-ntu-dr.10356-1651962023-07-14T15:47:26Z The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions Zhao, Yang School of Materials Science and Engineering Science::Chemistry::Physical chemistry Ground State Wave Functions This perspective presents an overview of the development of the hierarchy of Davydov’s Ansätze and a few of its applications in many-body problems in computational chemical physics. Davydov’s solitons originated in the investigations of vibrational energy transport in protein s in the 1970s. Momentum-space projection of these solitary waves turned up to be accurate variational ground-state wave functions for the extended Holstein molecular crystal model, lend ing unambiguous evidence to the absence of formal quantum phase transitions in the Holstein systems. The multiple Davydov Ansätze have been proposed, with the increasing Ansatz multiplicity, as incremental improvements of their single-Ansatz parents. For a given Hamiltonian, the time-dependent variational formalism is utilized to extract accurate dynamic and spectroscopic properties using Davydov’s Ansätze as its trial states. A quantity proven to disappear for large multiplicities, the Ansatz relative deviation is introduced to quantify how closely the Schrödinger equation is obeyed. Three finite-temperature extensions to the time-dependent variation scheme are elaborated, i.e., the Monte Carlo importance sampling, the method of thermofield dynamics, and the method of displaced number states. To demonstrate the versatility of the methodology, applications of Davydov’s Ansätze are made to the generalized Holstein Hamiltonian, variants of the spin-boson model, and systems of cavity-assisted singlet fission, yielding accurate dynamic and spectroscopic properties of the many-body systems. Ministry of Education (MOE) Submitted/Accepted version Support from the Singapore Ministry of Education Academic Research Fund Tier 1 (Grant No. RG190/18) is gratefully acknowledged. 2023-03-20T07:38:34Z 2023-03-20T07:38:34Z 2023 Journal Article Zhao, Y. (2023). The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions. The Journal of Chemical Physics, 158(8), 080901-. https://dx.doi.org/10.1063/5.0140002 0021-9606 https://hdl.handle.net/10356/165196 10.1063/5.0140002 8 158 080901 en Grant No. RG190/18 The Journal of Chemical Physics © 2023 Author(s). Published under an exclusive license by AIP Publishing. This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Zhao, Y. (2023). The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions. The Journal of Chemical Physics, 158(8), 080901- and may be found at https://doi.org/10.1063/5.0140002. application/pdf |
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Science::Chemistry::Physical chemistry Ground State Wave Functions Zhao, Yang The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
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This perspective presents an overview of the development of the hierarchy of Davydov’s Ansätze and a few of its applications in many-body problems in computational chemical physics. Davydov’s solitons originated in the investigations of vibrational energy transport in protein s in the 1970s. Momentum-space projection of these solitary waves turned up to be accurate variational ground-state wave functions for the extended Holstein molecular crystal model, lend ing unambiguous evidence to the absence of formal quantum phase transitions in the Holstein systems. The multiple Davydov Ansätze have been proposed, with the increasing Ansatz multiplicity, as incremental improvements of their single-Ansatz parents. For a given Hamiltonian, the time-dependent variational formalism is utilized to extract accurate dynamic and spectroscopic properties using Davydov’s Ansätze as its trial states. A quantity proven to disappear for large multiplicities, the Ansatz relative deviation is introduced to quantify how closely the Schrödinger equation is obeyed. Three finite-temperature extensions to the time-dependent variation scheme are elaborated, i.e., the Monte Carlo importance sampling, the method of thermofield dynamics, and the method of displaced number states. To demonstrate the versatility of the methodology, applications of Davydov’s Ansätze are made to the generalized Holstein Hamiltonian, variants of
the spin-boson model, and systems of cavity-assisted singlet fission, yielding accurate dynamic and spectroscopic properties of the many-body systems. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Zhao, Yang |
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Article |
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Zhao, Yang |
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Zhao, Yang |
| title |
The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
| title_short |
The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
| title_full |
The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
| title_fullStr |
The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
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The hierarchy of Davydov’s Ansätze: from guesswork to numerically “exact” many-body wave functions |
| title_sort |
hierarchy of davydov’s ansätze: from guesswork to numerically “exact” many-body wave functions |
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2023 |
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https://hdl.handle.net/10356/165196 |
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