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Main Authors: Tang, Ho-Kin, Yudhistira, Indra, Chattopadhyay, Udvas, Ulybyshev, Maksim, Sengupta, P., Assaad, F. F., Adam, S.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2311.12522
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author Tang, Ho-Kin
Yudhistira, Indra
Chattopadhyay, Udvas
Ulybyshev, Maksim
Sengupta, P.
Assaad, F. F.
Adam, S.
author_facet Tang, Ho-Kin
Yudhistira, Indra
Chattopadhyay, Udvas
Ulybyshev, Maksim
Sengupta, P.
Assaad, F. F.
Adam, S.
contents The absence of screening of the non-local Coulomb interaction in Dirac systems at charge neutrality leads to the breakdown of the Fermi liquid and divergence of the Fermi velocity. On the other hand, Mott Hubbard physics and the concomitant formation of local moments is dominated by the local effective Hubbard interaction. Using quantum Monte Carlo methods combined with stochastic analytical continuation, we compute the single particle spectral function of fermions on the honeycomb lattice for a realistic interaction that includes both the Hubbard interaction and long-ranged Coulomb repulsion. To a first approximation, we find that the generic high-energy features such as the formation of the upper Hubbard band are independent of the long-ranged Coulomb repulsion and determined mostly by the local effective Hubbard interaction. The sub-leading effects of adding the long-range interaction include an enhancement of the bandwidth and a decrease of the spin-polaron quasi-particle weight and lifetime.
format Preprint
id arxiv_https___arxiv_org_abs_2311_12522
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Spectral functions of the honeycomb lattice with both the Hubbard and long-range Coulomb Interactions
Tang, Ho-Kin
Yudhistira, Indra
Chattopadhyay, Udvas
Ulybyshev, Maksim
Sengupta, P.
Assaad, F. F.
Adam, S.
Strongly Correlated Electrons
The absence of screening of the non-local Coulomb interaction in Dirac systems at charge neutrality leads to the breakdown of the Fermi liquid and divergence of the Fermi velocity. On the other hand, Mott Hubbard physics and the concomitant formation of local moments is dominated by the local effective Hubbard interaction. Using quantum Monte Carlo methods combined with stochastic analytical continuation, we compute the single particle spectral function of fermions on the honeycomb lattice for a realistic interaction that includes both the Hubbard interaction and long-ranged Coulomb repulsion. To a first approximation, we find that the generic high-energy features such as the formation of the upper Hubbard band are independent of the long-ranged Coulomb repulsion and determined mostly by the local effective Hubbard interaction. The sub-leading effects of adding the long-range interaction include an enhancement of the bandwidth and a decrease of the spin-polaron quasi-particle weight and lifetime.
title Spectral functions of the honeycomb lattice with both the Hubbard and long-range Coulomb Interactions
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2311.12522