Investigating the roots of the nonlinear Luttinger liquid phenomenology

The nonlinear Luttinger liquid phenomenology of one-dimensional correlated Fermi systems is an attempt to describe the effect of the band curvature beyond the Tomonaga-Luttinger liquid paradigm. It relies on the observation that the dynamical structure factor of the interacting electron gas shows a...

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Main Author: Lisa Markhof, Mikhail Pletyukhov, Volker Meden
Format: Article
Language:English
Published: SciPost 2019-10-01
Series:SciPost Physics
Online Access:https://scipost.org/SciPostPhys.7.4.047
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spelling doaj-d0dcafe03fa34bae83c12e6c1d17e5ec2020-11-25T02:37:29ZengSciPostSciPost Physics2542-46532019-10-017404710.21468/SciPostPhys.7.4.047Investigating the roots of the nonlinear Luttinger liquid phenomenologyLisa Markhof, Mikhail Pletyukhov, Volker MedenThe nonlinear Luttinger liquid phenomenology of one-dimensional correlated Fermi systems is an attempt to describe the effect of the band curvature beyond the Tomonaga-Luttinger liquid paradigm. It relies on the observation that the dynamical structure factor of the interacting electron gas shows a logarithmic threshold singularity when evaluated to first order perturbation theory in the two-particle interaction. This term was interpreted as the linear one in an expansion which was conjectured to resum to a power law. A field theory, the mobile impurity model, which is constructed such that it provides the power law in the structure factor, was suggested to be the proper effective model and used to compute the single-particle spectral function. This forms the basis of the nonlinear Luttinger liquid phenomenology. Surprisingly, the second order perturbative contribution to the structure factor was so far not studied. We first close this gap and show that it is consistent with the conjectured power law. Secondly, we critically assess the steps leading to the mobile impurity Hamiltonian. We show that the model does not allow to include the effect of the momentum dependence of the (bulk) two-particle potential. This dependence was recently shown to spoil power laws in the single-particle spectral function which previously were believed to be part of the Tomonaga-Luttinger liquid universality. Although our second order results for the structure factor are consistent with power-law scaling, this raises doubts that the conjectured nonlinear Luttinger liquid phenomenology can be considered as universal. We conclude that more work is required to clarify this.https://scipost.org/SciPostPhys.7.4.047
collection DOAJ
language English
format Article
sources DOAJ
author Lisa Markhof, Mikhail Pletyukhov, Volker Meden
spellingShingle Lisa Markhof, Mikhail Pletyukhov, Volker Meden
Investigating the roots of the nonlinear Luttinger liquid phenomenology
SciPost Physics
author_facet Lisa Markhof, Mikhail Pletyukhov, Volker Meden
author_sort Lisa Markhof, Mikhail Pletyukhov, Volker Meden
title Investigating the roots of the nonlinear Luttinger liquid phenomenology
title_short Investigating the roots of the nonlinear Luttinger liquid phenomenology
title_full Investigating the roots of the nonlinear Luttinger liquid phenomenology
title_fullStr Investigating the roots of the nonlinear Luttinger liquid phenomenology
title_full_unstemmed Investigating the roots of the nonlinear Luttinger liquid phenomenology
title_sort investigating the roots of the nonlinear luttinger liquid phenomenology
publisher SciPost
series SciPost Physics
issn 2542-4653
publishDate 2019-10-01
description The nonlinear Luttinger liquid phenomenology of one-dimensional correlated Fermi systems is an attempt to describe the effect of the band curvature beyond the Tomonaga-Luttinger liquid paradigm. It relies on the observation that the dynamical structure factor of the interacting electron gas shows a logarithmic threshold singularity when evaluated to first order perturbation theory in the two-particle interaction. This term was interpreted as the linear one in an expansion which was conjectured to resum to a power law. A field theory, the mobile impurity model, which is constructed such that it provides the power law in the structure factor, was suggested to be the proper effective model and used to compute the single-particle spectral function. This forms the basis of the nonlinear Luttinger liquid phenomenology. Surprisingly, the second order perturbative contribution to the structure factor was so far not studied. We first close this gap and show that it is consistent with the conjectured power law. Secondly, we critically assess the steps leading to the mobile impurity Hamiltonian. We show that the model does not allow to include the effect of the momentum dependence of the (bulk) two-particle potential. This dependence was recently shown to spoil power laws in the single-particle spectral function which previously were believed to be part of the Tomonaga-Luttinger liquid universality. Although our second order results for the structure factor are consistent with power-law scaling, this raises doubts that the conjectured nonlinear Luttinger liquid phenomenology can be considered as universal. We conclude that more work is required to clarify this.
url https://scipost.org/SciPostPhys.7.4.047
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