Saved in:
Bibliographic Details
Main Authors: Lang, Zi-Jian, Sen, Sudeshna, Tsang, Pak Ki Henry, Haule, Kristjan, Dobrosavljević, Vladimir, Ku, Wei
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.14053
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908732966830080
author Lang, Zi-Jian
Sen, Sudeshna
Tsang, Pak Ki Henry
Haule, Kristjan
Dobrosavljević, Vladimir
Ku, Wei
author_facet Lang, Zi-Jian
Sen, Sudeshna
Tsang, Pak Ki Henry
Haule, Kristjan
Dobrosavljević, Vladimir
Ku, Wei
contents The Mott transition, a metal-insulator transition due to strong electronic interaction, is observed in many materials without an accompanying change of system symmetry. An important open question in Mott's proposal is the role of long-range screening, whose drastic change across the quantum phase transition may self-consistently make the transition more abrupt, toward a first-order one. Here we investigate this effect in a model system of hydrogen atoms in a cubic lattice, using charge self-consistent dynamical mean-field theory that incorporates approximately the long-range interaction within the density functional treatment. We found that the system is well within the charge-transfer regime and that the charge-transfer gap intimately related to the Mott transition closes smoothly instead. This indicates that the long-range screening does not play an essential role in this prototypical example. This finding can be understood from the fact that the obtained insulating phase in this model system is driven by strong local interaction, and the transition is associated with the closing of charge-transfer gap. Contrary to Mott's length scale argument, such energetic competition between kinetic energy and local interaction is thus insensitive to long-range screening.
format Preprint
id arxiv_https___arxiv_org_abs_2308_14053
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Relevance of long-range screening in Mott transition examined via a hydrogen lattice
Lang, Zi-Jian
Sen, Sudeshna
Tsang, Pak Ki Henry
Haule, Kristjan
Dobrosavljević, Vladimir
Ku, Wei
Strongly Correlated Electrons
The Mott transition, a metal-insulator transition due to strong electronic interaction, is observed in many materials without an accompanying change of system symmetry. An important open question in Mott's proposal is the role of long-range screening, whose drastic change across the quantum phase transition may self-consistently make the transition more abrupt, toward a first-order one. Here we investigate this effect in a model system of hydrogen atoms in a cubic lattice, using charge self-consistent dynamical mean-field theory that incorporates approximately the long-range interaction within the density functional treatment. We found that the system is well within the charge-transfer regime and that the charge-transfer gap intimately related to the Mott transition closes smoothly instead. This indicates that the long-range screening does not play an essential role in this prototypical example. This finding can be understood from the fact that the obtained insulating phase in this model system is driven by strong local interaction, and the transition is associated with the closing of charge-transfer gap. Contrary to Mott's length scale argument, such energetic competition between kinetic energy and local interaction is thus insensitive to long-range screening.
title Relevance of long-range screening in Mott transition examined via a hydrogen lattice
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2308.14053