Related papers: Constructing Hubbard Models for the Hydrogen Chain using Sliced Basis DMRG

Constructing Hubbard Models for the Hydrogen Chain using Sliced Basis DMRG

URL: http://arxiv.org/abs/2109.05129v1
Date: Fri, 10 Sep 2021 22:45:29 GMT
Title: Constructing Hubbard Models for the Hydrogen Chain using Sliced Basis DMRG
Authors: Randy C. Sawaya, Steven R. White
Abstract summary: Sliced-basis DMRG(sb-DMRG) is used to simulate a chain of hydrogen atoms and to construct low-energy effective Hubbard-like models. We explore the importance of constraints in the effective Hamiltonian, such as the restricting the range of the single-particle hopping and two-particle interactions.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Sliced-basis DMRG(sb-DMRG) is used to simulate a chain of hydrogen atoms and to construct low-energy effective Hubbard-like models. The downfolding procedure first involves a change of basis to a set of atom-centered Wannier functions constructed from the natural orbitals of the exact DMRG one-particle density matrix. The Wannier function model is then reduced to a fewer-parameter Hubbard-like model, whose parameters are determined by minimizing the expectation value of the Wannier Hamiltonian in the ground state of the Hubbard Hamiltonian. This indirect variational procedure not only yields compact and simple models for the hydrogen chain, but also allows us to explore the importance of constraints in the effective Hamiltonian, such as the restricting the range of the single-particle hopping and two-particle interactions, and to assess the reliability of more conventional downfolding. The entanglement entropy for a model's ground state, cut in the middle, is an important property determining the ability of DMRG and tensor networks to simulate the model, and we study its variation with the range of the interactions. Counterintuitively, we find that shorter ranged interactions often have larger entanglement.

Related papers

Exceptional Luttinger Liquids from sublattice dependent interaction [0.0]
Exceptional Points (EPs) naturally occur in the Luttinger Liquid (LL) theory. EPs are non-Hermitian topological properties of the single-particle Green Function (GF)
arXiv Detail & Related papers (2024-08-01T18:00:01Z)
Nonstandard Hubbard model and electron pairing [0.0]
We present a non-standard Hubbard model applicable to arbitrary single-particle potential profiles and inter-particle interactions. Our investigation demonstrates that long-range inter-particle interactions can induce a novel mechanism for repulsive particle pairing. These findings carry significant implications for various phenomena, including the formation of flat bands, the emergence of superconductivity in twisted bilayer graphene, and the possibility of a novel metal-insulator transition.
arXiv Detail & Related papers (2023-07-31T15:01:16Z)
Conditional Korhunen-Lo\'{e}ve regression model with Basis Adaptation for high-dimensional problems: uncertainty quantification and inverse modeling [62.997667081978825]
We propose a methodology for improving the accuracy of surrogate models of the observable response of physical systems. We apply the proposed methodology to constructing surrogate models via the Basis Adaptation (BA) method of the stationary hydraulic head response.
arXiv Detail & Related papers (2023-07-05T18:14:38Z)
Interactions and Topology in Quantum Matter: Auxiliary Field Approach & Generalized SSH Models [0.0]
This thesis presents a set of projects which lie at the intersection between strong correlations and topological phases of matter. The first of these projects is a treatment of an infinite dimensional generalization of the SSH model with local Coulomb interactions which is solved exactly using DMFT-NRG. The second set of projects involves the development of methods for formulating non-interacting auxiliary models for strongly correlated systems.
arXiv Detail & Related papers (2022-12-09T18:38:31Z)
Interaction-induced non-Hermitian topological phases from a dynamical gauge field [0.0]
We present a minimal non-Hermitian model where a topologically nontrivial complex energy spectrum is induced by inter-particle interactions. The model is topologically trivial for a single particle system, but exhibits nontrivial non-Hermitian topology with a point gap when two or more particles are present in the system.
arXiv Detail & Related papers (2022-10-04T12:55:38Z)
Slow semiclassical dynamics of a two-dimensional Hubbard model in disorder-free potentials [77.34726150561087]
We show that introduction of harmonic and spin-dependent linear potentials sufficiently validates fTWA for longer times. In particular, we focus on a finite two-dimensional system and show that at intermediate linear potential strength, the addition of a harmonic potential and spin dependence of the tilt, results in subdiffusive dynamics.
arXiv Detail & Related papers (2022-10-03T16:51:25Z)
Photoinduced prethermal order parameter dynamics in the two-dimensional large-$N$ Hubbard-Heisenberg model [77.34726150561087]
We study the microscopic dynamics of competing ordered phases in a two-dimensional correlated electron model. We simulate the light-induced transition between two competing phases.
arXiv Detail & Related papers (2022-05-13T13:13:31Z)
Tuning long-range fermion-mediated interactions in cold-atom quantum simulators [68.8204255655161]
Engineering long-range interactions in cold-atom quantum simulators can lead to exotic quantum many-body behavior. Here, we propose several tuning knobs, accessible in current experimental platforms, that allow to further control the range and shape of the mediated interactions.
arXiv Detail & Related papers (2022-03-31T13:32:12Z)
Moser Flow: Divergence-based Generative Modeling on Manifolds [49.04974733536027]
Moser Flow (MF) is a new class of generative models within the family of continuous normalizing flows (CNF) MF does not require invoking or backpropagating through an ODE solver during training. We demonstrate for the first time the use of flow models for sampling from general curved surfaces.
arXiv Detail & Related papers (2021-08-18T09:00:24Z)
Dynamical preparation of a steady ODLRO state in the Hubbard model with local non-Hermitian impurity [0.0]
We show that the non-Hermitian Hubbard Hamiltonian can respect a full real spectrum even if a local non-Hermitian impurity is applied to. Our results lay the groundwork for the dynamical generation of a steady ODLRO state through the critical non-Hermitian strongly correlated system.
arXiv Detail & Related papers (2020-09-14T03:05:38Z)
Systematic large flavor fTWA approach to interaction quenches in the Hubbard model [55.2480439325792]
We study the nonequilibrium dynamics after an interaction quench in the two-dimensional Hubbard model using the recently introduced fermionic truncated Wigner approximation (fTWA) We show that fTWA is exact at least up to and including the prethermalization dynamics.
arXiv Detail & Related papers (2020-07-09T20:59:49Z)

This list is automatically generated from the titles and abstracts of the papers in this site.