Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms

P. F. LeBlanc; Andrey E. Antipov; Federico Becca; Ireneusz W. Bulik; Garnet Kin Lic Chan; Chia Min Chung; Youjin Deng; Michel Ferrero; Thomas M. Henderson; Carlos A. Jiménez-Hoyos; E. Kozik; Xuan Wen Liu; Andrew J. Millis; N. V. Prokof'ev; Mingpu Qin; Gustavo E. Scuseria; Hao Shi; B. V. Svistunov; Luca F. Tocchio; I. S. Tupitsyn; Steven R. White; Shiwei Zhang; Bo Xiao Zheng; Zhenyue Zhu; Emanuel Gull

doi:10.1103/PhysRevX.5.041041

Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms

P. F. LeBlanc
, Andrey E. Antipov
, Federico Becca
, Ireneusz W. Bulik
, Garnet Kin Lic Chan
, Chia Min Chung
, Youjin Deng
, Michel Ferrero
, Thomas M. Henderson
, Carlos A. Jiménez-Hoyos
, E. Kozik
, Xuan Wen Liu
, Andrew J. Millis
, N. V. Prokof'ev
, Mingpu Qin
, Gustavo E. Scuseria
, Hao Shi
, B. V. Svistunov
, Luca F. Tocchio
, I. S. Tupitsyn

Steven R. White, Shiwei Zhang, Bo Xiao Zheng, Zhenyue Zhu, Emanuel Gull

Résultats de recherche: Contribution à un journal › Article de révision › Revue par des pairs

Résumé

Numerical results for ground-state and excited-state properties (energies, double occupancies, and Matsubara-axis self-energies) of the single-orbital Hubbard model on a two-dimensional square lattice are presented, in order to provide an assessment of our ability to compute accurate results in the thermodynamic limit. Many methods are employed, including auxiliary-field quantum Monte Carlo, bare and bold-line diagrammatic Monte Carlo, method of dual fermions, density matrix embedding theory, density matrix renormalization group, dynamical cluster approximation, diffusion Monte Carlo within a fixed-node approximation, unrestricted coupled cluster theory, and multireference projected Hartree-Fock methods. Comparison of results obtained by different methods allows for the identification of uncertainties and systematic errors. The importance of extrapolation to converged thermodynamic-limit values is emphasized. Cases where agreement between different methods is obtained establish benchmark results that may be useful in the validation of new approaches and the improvement of existing methods.

langue originale	Anglais
Numéro d'article	041041
journal	Physical Review X
Volume	5
Numéro de publication	4
Les DOIs	https://doi.org/10.1103/PhysRevX.5.041041
état	Publié - 1 janv. 2015

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10.1103/PhysRevX.5.041041

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LeBlanc, P. F., Antipov, A. E., Becca, F., Bulik, I. W., Chan, G. K. L., Chung, C. M., Deng, Y., Ferrero, M., Henderson, T. M., Jiménez-Hoyos, C. A., Kozik, E., Liu, X. W., Millis, A. J., Prokof'ev, N. V., Qin, M., Scuseria, G. E., Shi, H., Svistunov, B. V., Tocchio, L. F., ... Gull, E. (2015). Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms. Physical Review X, 5(4), Article 041041. https://doi.org/10.1103/PhysRevX.5.041041

@article{f09fc95963db4c3eb6e6109aef5742b9,

title = "Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms",

abstract = "Numerical results for ground-state and excited-state properties (energies, double occupancies, and Matsubara-axis self-energies) of the single-orbital Hubbard model on a two-dimensional square lattice are presented, in order to provide an assessment of our ability to compute accurate results in the thermodynamic limit. Many methods are employed, including auxiliary-field quantum Monte Carlo, bare and bold-line diagrammatic Monte Carlo, method of dual fermions, density matrix embedding theory, density matrix renormalization group, dynamical cluster approximation, diffusion Monte Carlo within a fixed-node approximation, unrestricted coupled cluster theory, and multireference projected Hartree-Fock methods. Comparison of results obtained by different methods allows for the identification of uncertainties and systematic errors. The importance of extrapolation to converged thermodynamic-limit values is emphasized. Cases where agreement between different methods is obtained establish benchmark results that may be useful in the validation of new approaches and the improvement of existing methods.",

author = "LeBlanc, \{P. F.\} and Antipov, \{Andrey E.\} and Federico Becca and Bulik, \{Ireneusz W.\} and Chan, \{Garnet Kin Lic\} and Chung, \{Chia Min\} and Youjin Deng and Michel Ferrero and Henderson, \{Thomas M.\} and Jim{\'e}nez-Hoyos, \{Carlos A.\} and E. Kozik and Liu, \{Xuan Wen\} and Millis, \{Andrew J.\} and Prokof'ev, \{N. V.\} and Mingpu Qin and Scuseria, \{Gustavo E.\} and Hao Shi and Svistunov, \{B. V.\} and Tocchio, \{Luca F.\} and Tupitsyn, \{I. S.\} and White, \{Steven R.\} and Shiwei Zhang and Zheng, \{Bo Xiao\} and Zhenyue Zhu and Emanuel Gull",

year = "2015",

month = jan,

day = "1",

doi = "10.1103/PhysRevX.5.041041",

language = "English",

volume = "5",

journal = "Physical Review X",

issn = "2160-3308",

number = "4",

}

LeBlanc, PF, Antipov, AE, Becca, F, Bulik, IW, Chan, GKL, Chung, CM, Deng, Y, Ferrero, M, Henderson, TM, Jiménez-Hoyos, CA, Kozik, E, Liu, XW, Millis, AJ, Prokof'ev, NV, Qin, M, Scuseria, GE, Shi, H, Svistunov, BV, Tocchio, LF, Tupitsyn, IS, White, SR, Zhang, S, Zheng, BX, Zhu, Z & Gull, E 2015, 'Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms', Physical Review X, VOL. 5, Numéro 4, 041041. https://doi.org/10.1103/PhysRevX.5.041041

TY - JOUR

T1 - Solutions of the two-dimensional hubbard model

T2 - Benchmarks and results from a wide range of numerical algorithms

AU - LeBlanc, P. F.

AU - Antipov, Andrey E.

AU - Becca, Federico

AU - Bulik, Ireneusz W.

AU - Chan, Garnet Kin Lic

AU - Chung, Chia Min

AU - Deng, Youjin

AU - Ferrero, Michel

AU - Henderson, Thomas M.

AU - Jiménez-Hoyos, Carlos A.

AU - Kozik, E.

AU - Liu, Xuan Wen

AU - Millis, Andrew J.

AU - Prokof'ev, N. V.

AU - Qin, Mingpu

AU - Scuseria, Gustavo E.

AU - Shi, Hao

AU - Svistunov, B. V.

AU - Tocchio, Luca F.

AU - Tupitsyn, I. S.

AU - White, Steven R.

AU - Zhang, Shiwei

AU - Zheng, Bo Xiao

AU - Zhu, Zhenyue

AU - Gull, Emanuel

PY - 2015/1/1

Y1 - 2015/1/1

N2 - Numerical results for ground-state and excited-state properties (energies, double occupancies, and Matsubara-axis self-energies) of the single-orbital Hubbard model on a two-dimensional square lattice are presented, in order to provide an assessment of our ability to compute accurate results in the thermodynamic limit. Many methods are employed, including auxiliary-field quantum Monte Carlo, bare and bold-line diagrammatic Monte Carlo, method of dual fermions, density matrix embedding theory, density matrix renormalization group, dynamical cluster approximation, diffusion Monte Carlo within a fixed-node approximation, unrestricted coupled cluster theory, and multireference projected Hartree-Fock methods. Comparison of results obtained by different methods allows for the identification of uncertainties and systematic errors. The importance of extrapolation to converged thermodynamic-limit values is emphasized. Cases where agreement between different methods is obtained establish benchmark results that may be useful in the validation of new approaches and the improvement of existing methods.

AB - Numerical results for ground-state and excited-state properties (energies, double occupancies, and Matsubara-axis self-energies) of the single-orbital Hubbard model on a two-dimensional square lattice are presented, in order to provide an assessment of our ability to compute accurate results in the thermodynamic limit. Many methods are employed, including auxiliary-field quantum Monte Carlo, bare and bold-line diagrammatic Monte Carlo, method of dual fermions, density matrix embedding theory, density matrix renormalization group, dynamical cluster approximation, diffusion Monte Carlo within a fixed-node approximation, unrestricted coupled cluster theory, and multireference projected Hartree-Fock methods. Comparison of results obtained by different methods allows for the identification of uncertainties and systematic errors. The importance of extrapolation to converged thermodynamic-limit values is emphasized. Cases where agreement between different methods is obtained establish benchmark results that may be useful in the validation of new approaches and the improvement of existing methods.

UR - https://www.scopus.com/pages/publications/85029574478

U2 - 10.1103/PhysRevX.5.041041

DO - 10.1103/PhysRevX.5.041041

M3 - Review article

AN - SCOPUS:85029574478

SN - 2160-3308

VL - 5

JO - Physical Review X

JF - Physical Review X

IS - 4

M1 - 041041

ER -

Solutions of the two-dimensional hubbard model: Benchmarks and results from a wide range of numerical algorithms

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