Properties of the t-J Model in the Dynamical Mean Field Theory: One-Particle Properties in the Antiferromagnetic Phase

TL;DR

This paper investigates the one-particle spectral properties of the t-J model in the antiferromagnetic phase using dynamical mean field theory, revealing complex structures related to single-hole physics at finite doping.

Contribution

It introduces an AB-sublattice approach within DMFT to explicitly account for broken spin symmetry, enabling detailed analysis of spectral functions in the antiferromagnetic phase.

Findings

Rich spectral structures at finite doping below T_N.

Relevance of single-hole results to finite doping.

Establishment of the connection between academic limits and physical properties.

Abstract

We study the one-particle properties of the t-J model within the framework of Vollhardt's dynamical mean field theory. By introducing an AB - sublattice structure we explicitely allow for a broken symmetry for the spin degrees of freedom and are thus able to calculate the one-particle spectral function in the antiferromagnetic phase. We observe surprisingly rich structures in the one-particle density of states for T<T_N at finite doping up to 15\%. These structures can be related to the well known results for one single hole in the N\'eel background. We are thus able to establish the relevance of this at a first sight academic limit to physical properties of the t-J model with a finite density of holes in the thermodynamical limit.