From Fusion Hierarchy to Excited State TBA

G. Juettner; A. Kluemper (Cologne); J. Suzuki(Tokyo)

arXiv:hep-th/9707074·hep-th·September 25, 2009

From Fusion Hierarchy to Excited State TBA

G. Juettner, A. Kluemper (Cologne), J. Suzuki(Tokyo)

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TL;DR

This paper derives excited state Thermodynamic Bethe Ansatz equations for 1D lattice electron systems using fusion hierarchy relations, avoiding the string hypothesis, and applies it to the supersymmetric t-J and extended Hubbard models.

Contribution

It provides the first explicit derivation of excited state TBA equations for 1D lattice electron systems using a novel fusion hierarchy approach.

Findings

01

Derived excited state TBA equations for the t-J model.

02

Applied the method to the supersymmetric extended Hubbard model.

03

Established a new derivation method avoiding the string hypothesis.

Abstract

Functional relations among the fusion hierarchy of quantum transfer matrices give a novel derivation of the TBA equations, namely without string hypothesis. This is demonstrated for two important models of 1D highly correlated electron systems, the supersymmetric $t - J$ model and the supersymmetric extended Hubbard model. As a consequence, "the excited state TBA" equations, which characterize correlation lengths, are explicitly derived for the $t - J$ model. To the authors' knowledge, this is the first explicit derivation of excited state TBA equations for 1D lattice electron systems.

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