Quantum Monte Carlo Calculations for the Ground State of the Three-Band Hubbard Model

ORAL

Abstract

The three-band Hubbard model captures several key features of the Copper-Oxide planes in cuprate superconductors, and provides the simplest model beyond the minimal one-band Hubbard model. Recent advances in cutting-edge computational methods allow us to perform an
extensive study of the model in the relevant regions of the parameter space. Interfacing generalized Hartree-Fock calculations with high-performance auxiliary-field quantum Monte Carlo techniques, we address the nature of the spin and charge order, as well as of pairing
correlations, as a function of the interaction strength and the charge transfer energy in the ground state of this model.

*Supported by NSF and Simons Foundation

Presenters

  • Ettore Vitali

    • Physics, William & Mary Coll

Authors

  • Ettore Vitali

    • Physics, William & Mary Coll

  • Hao Shi

    • Center for Computational Quantum Physics, The Flatiron Institute
    • The Flatiron Institut, Center for Computational Quantum Physics
    • Department of Physics, College of William and Mary
    • Flatiron Institute Simons Foundation
    • Physics, William & Mary Coll

  • Adam Chiciak

    • Physics, William & Mary Coll

  • Shiwei Zhang

    • College of William and Mary
    • Physics, The College of William and Mary
    • Department of Physics, The College of William and Mary
    • Department of Physics, College of William and Mary
    • Physics, William & Mary Coll