Thermodynamics and criticality of supersymmetric spin chains with long-range interactions

Ver/Abrir
Identificadores
URI: https://hdl.handle.net/10902/34947
ISSN: 1742-5468
Compartir
Estadísticas
Ver Estadísticas
Google Scholar
Registro completo
Mostrar el registro completo DC
Autoría
Finkel Morgenstern, Federico; González López, Artemio; León Merino, IvánAutoridad Unican; Rodríguez González, Miguel Ángel
Fecha
2018-04
Derechos
© 2018 IOP. The accepted manuscript is the version of the article accepted for publication including all changes made as a result of the peer review process, and which may also include the addition to the article by IOP Publishing of a header, an article ID, a cover sheet and/or an "accepted manuscript" watermark, but excluding any other editing, typesetting or other changes made by IOP Publishing and/or its licensors
Publicado en
Journal of Statistical Mechanics: Theory and Experiment, 2018, 2018(4), 043101
Editorial
IOP Publishing
Enlace a la publicación
Palabras clave
Integrable spin chains and vertex models
Solvable lattice models
Quantum criticality
Quantum phase transitions
Resumen/Abstract
We study the thermodynamics and critical behavior of su(m|n) supersymmetric spin chains of Haldane–Shastry type with a chemical potential term. We obtain a closed-form expression for the partition function and deduce a description of the spectrum in terms of the supersymmetric version of Haldane’s motifs, which we apply to obtain an analytic expression for the free energy per site in the thermodynamic limit. By studying the low-temperature behavior of the free energy, we characterize the critical behavior of the chains with 1 ≤ m, n ≤ 2, determining the critical regions and the corresponding central charge. We also show that in the su(2|1), su(1|2) and su(2|2) chains the bosonic or fermionic densities can undergo first-order (discontinuous) phase transitions at T = 0, in contrast with the previously studied su(2) case.
Colecciones a las que pertenece