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Hubbard model
First-Principles Calculations and Model Hamiltonian Approaches to Electronic and Optical Properties of Defects, Interfaces and Nanostructures
8.7 Hubbard Model
The Limits of the Hubbard Model
Arxiv:2007.01582V2 [Quant-Ph] 15 Jul 2020
Mott Transition in the Π-Flux SU(4) Hubbard Model on a Square Lattice
Arxiv:1912.06007V3 [Quant-Ph] 30 Nov 2020 Iσ Jσ Google of a Quantum Computation Outperforming a Classical Hi,Ji,Σ I Supercomputer Contained 430 Two-Qubit Gates [8]
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Arxiv:2101.06032V3 [Quant-Ph] 26 May 2021 Quantum Ground States
Thermodynamics of the 3D Hubbard Model on Approaching the Nйel
Thermodynamics of the Metal-Insulator Transition in the Extended Hubbard Model
Mean-Field Phase Diagram of the Extended Bose-Hubbard Model Of
Phase Diagram of the Bose Hubbard Model
Quantum Fluctuations Beyond the Gutzwiller Approximation in The
Fermionic Hubbard Model the Hamiltonian of the Fermionic Hubbard Model Reads: ˆ X † X H = −T Aˆiσaˆjσ + U Nˆi↑Nˆi↓
Hubbard Model: an Overview
1. Introduction to the Hubbard Model 2. Coupled Dimer Antiferromagnet 3
Fermi-Hubbard Physics with Atoms in an Optical Lattice1
Fermions in Two Dimensions and Exactly Solvable Models
Top View
The Fermionic Hubbard Model in an Optical Lattice
An Introduction to the Hubbard Hamiltonian
Scattering Matrix and Excitation Spectrum of the Hubbard Model
The Hubbard Model in Condensed Matter and AMO Systems
Introduction to the Hubbard Model
The Hubbard Model Within the Equations of Motion Approach
Quasiparticle Properties Under Interactions in Weyl and Nodal Line Semimetals
Non-Abelian Anyons and Topological Quantum Computation
Lecture Notes: Fermi-Hubbard Model
The Landscape of the Hubbard Model
Critical Exponents for the One-Dimensional Hubbard Model
Solving the One-Dimensional Hubbard Model with the Bethe Ansatz
Superfluid to Mott Insulator Transition in the Bose-Hubbard Model
Elementary Introduction to the Hubbard Model
Quantum Bits with Macroscopic Topologically Protected States in Semiconductor Devices
Simulating Quantum Materials with Digital Quantum Computers
Quantum Magnetism
CHAPTER I Numerical Methods for Quantum Monte Carlo Simulations
Quantum Phase Transitions in the Bose Hubbard Model and in a Bose-Fermi Mixture
The Hubbard Model for Universal Quantum Computation
Introduction to the Hubbard Model
Introduction to the Field Theory of Classical and Quantum Phase
Dynamics of Hubbard Hamiltonians with the Multiconfigurational Time
Chapter 6. Bose Hubbard Model
Fermionic Models with Superconducting Circuits Urtzi Las Heras1*, Laura García-Álvarez1, Antonio Mezzacapo1, Enrique Solano1,2 and Lucas Lamata1
Arxiv:1901.06914V4
Energy Level Statistics of the Two-Dimensional Hubbard Model at Low filling
Decorated Star Triangle Relations and Exact Integrability of the 1-D Hubbard Model
Thermodynamic Properties of the Hubbard Model for a Diatomic Molecule AB
Surface Metal-Insulator Transition in the Hubbard Model
The Hubbard Model: a Computational Perspective Arxiv:2104.00064V1
Quantum Simulation of the Bose-Hubbard Model with Ultracold Atoms in Triangular Optical Superlattices
Bose-Hubbard Model
Three-Band to One-Band Hubbard Model
The Hubbard Model Arxiv:2103.12097V2 [Cond-Mat.Str
Hubbard Model on the Honeycomb Lattice: from Static and Dynamical Mean-field Theories to Lattice Quantum Monte Carlo Simulations