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Auteurs principaux: Thalmeier, Peter, Akbari, Alireza
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2311.18416
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author Thalmeier, Peter
Akbari, Alireza
author_facet Thalmeier, Peter
Akbari, Alireza
contents We present a comparative investigation of singlet ground state induced magnetism for singlet, doublet and triplet excited CEF states of non-Kramers f-electrons relevant primarily for Pr- and U- based compounds. This type of magnetic order is of intrinsic quantum nature because it requires the superposition of singlet ground state with excited states due to non-diagonal matrix elements of the effective intersite exchange to generate local moments. In contrast to conventional magnets the local moments and their ordering appear simultaneously at the transition temperature. It is finite only if the control parameter proportional to the ratio of exchange strength to level splitting exceeds a critical value marking the quantum critical point of the models. We determine the dependence of transition temperature, saturation moment, renormalised level splitting, specific heat jumps and low-temperature susceptibility as function of control parameter. Furthermore the temperature dependence of these quantities is calculated for control parameters above and below the quantum critical point and the distinction to conventional magnetism is discussed. In addition we investigate the dynamical properties of the three models, deriving the magnetic exciton dispersion and their critical behaviour. In particular the conditions for true and arrested soft-mode behaviour at the ordering wave vector are identified.
format Preprint
id arxiv_https___arxiv_org_abs_2311_18416
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Induced quantum magnetism in CEF singlet ground state models: Thermodynamics and excitations
Thalmeier, Peter
Akbari, Alireza
Strongly Correlated Electrons
Materials Science
We present a comparative investigation of singlet ground state induced magnetism for singlet, doublet and triplet excited CEF states of non-Kramers f-electrons relevant primarily for Pr- and U- based compounds. This type of magnetic order is of intrinsic quantum nature because it requires the superposition of singlet ground state with excited states due to non-diagonal matrix elements of the effective intersite exchange to generate local moments. In contrast to conventional magnets the local moments and their ordering appear simultaneously at the transition temperature. It is finite only if the control parameter proportional to the ratio of exchange strength to level splitting exceeds a critical value marking the quantum critical point of the models. We determine the dependence of transition temperature, saturation moment, renormalised level splitting, specific heat jumps and low-temperature susceptibility as function of control parameter. Furthermore the temperature dependence of these quantities is calculated for control parameters above and below the quantum critical point and the distinction to conventional magnetism is discussed. In addition we investigate the dynamical properties of the three models, deriving the magnetic exciton dispersion and their critical behaviour. In particular the conditions for true and arrested soft-mode behaviour at the ordering wave vector are identified.
title Induced quantum magnetism in CEF singlet ground state models: Thermodynamics and excitations
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2311.18416