Exiton, Spinon and Spin Wave Modes in an Exactly Soluble One-Dimensional Quantum Many-Body System

Details Exiton, Spinon and Spin Wave Modes in an Exactly Soluble One-Dimensional Quantum Many-Body System Exiton, Spinon and Spin Wave Modes in an Exactly Soluble One-Dimensional Quantum Many-Body System

1993-04-20

arxiv.org/abs/cond-mat/9304033v1

Physics

Condensed Matter

14 pages (+ 3 graphs available upon request), ReVTeX 3.0, UoU-rar-93002

Scientific paper

10.1103/PhysRevLett.71.2789

In this paper, we present the exact solution to a one-dimensional, two-component, quantum many-body system in which like particles interact with a pair potential $s(s+1)/{\rm sinh}^{2}(r)$, while unlike particles interact with a pair potential $-s(s+1)/{\rm cosh}^{2}(r)$. We first give a proof of integrability, then derive the coupled equations determining the complete spectrum. All singularities occur in the ground state when there are equal numbers of the two components; we give explicit results for the ground state and low-lying states in this case. For $s>0$, the system is an antiferromagnet/insulator, with excitations consisting of a pair-hole--pair continuum, a two-particle continuum with gap, and excitons with gaps. For $-1

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