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Main Authors: Haurie, L., Grandadam, M., Pangburn, E., Banerjee, A., Burdin, S., Pépin, C.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2305.08591
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author Haurie, L.
Grandadam, M.
Pangburn, E.
Banerjee, A.
Burdin, S.
Pépin, C.
author_facet Haurie, L.
Grandadam, M.
Pangburn, E.
Banerjee, A.
Burdin, S.
Pépin, C.
contents We use the composite operator method (COM) to analyze the strongly correlated repulsive Hubbard model, investigating the effect of nearest-neighbor hoppings up to fourth order on a square lattice. We consider two sets of self-consistent equations, one enforcing the Pauli principle and the other imposing charge-charge, spin-spin, and pair-pair correlations using a decoupling scheme developed by L. Roth. We extract three distinct solutions from these equations: COM1 and COM2 by imposing the Pauli principle and one from Roth decoupling. An overview of the method studying the validity of particle-hole symmetry and the Luttinger theorem for each solution is presented. Additionally, we extend the initial basis to study superconductivity, concluding that it is induced by the Van Hove singularity. Finally, we include higher-order hoppings using realistic estimates for tight binding parameters and compare our results with ARPES measurements on cuprates.
format Preprint
id arxiv_https___arxiv_org_abs_2305_08591
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Bands renormalization and superconductivity in the strongly correlated Hubbard model using composite operators method
Haurie, L.
Grandadam, M.
Pangburn, E.
Banerjee, A.
Burdin, S.
Pépin, C.
Strongly Correlated Electrons
We use the composite operator method (COM) to analyze the strongly correlated repulsive Hubbard model, investigating the effect of nearest-neighbor hoppings up to fourth order on a square lattice. We consider two sets of self-consistent equations, one enforcing the Pauli principle and the other imposing charge-charge, spin-spin, and pair-pair correlations using a decoupling scheme developed by L. Roth. We extract three distinct solutions from these equations: COM1 and COM2 by imposing the Pauli principle and one from Roth decoupling. An overview of the method studying the validity of particle-hole symmetry and the Luttinger theorem for each solution is presented. Additionally, we extend the initial basis to study superconductivity, concluding that it is induced by the Van Hove singularity. Finally, we include higher-order hoppings using realistic estimates for tight binding parameters and compare our results with ARPES measurements on cuprates.
title Bands renormalization and superconductivity in the strongly correlated Hubbard model using composite operators method
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2305.08591