Indications of Spin-Charge Separation in the 2D Extended t-J Model

George B. Martins; Robert Eder; Elbio Dagotto

arXiv:cond-mat/9904030·cond-mat.str-el·June 25, 2015

Indications of Spin-Charge Separation in the 2D Extended t-J Model

George B. Martins, Robert Eder, Elbio Dagotto

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TL;DR

This study computationally investigates the 2D extended t-J model, revealing signs of spin-charge separation, suppressed quasiparticle weight, and stripe formation, which are relevant to understanding cuprate superconductors.

Contribution

It provides evidence of spin-charge separation and stripe precursors in the 2D extended t-J model, connecting computational results to experimental observations.

Findings

01

Robust antiferromagnetic correlations across the hole.

02

Negligible quasiparticle weight at specific momenta.

03

Precursor signs of metallic stripe formation with multiple holes.

Abstract

The 2D extended $t - J$ model is studied computationally in a broad region of parameter space, motivated by recent photoemission experiments for the undoped cuprate $C a_{2} Cu O_{2} C l_{2}$ (F. Ronning et al., Science {\bf 282}, 2067 (1998)). The one-hole ground state is shown to develop robust antiferromagnetic (AF) correlations between spins separated by the mobile hole (i.e. across the hole). This effect tends to decouple charge from spin, and the quasiparticle weight becomes negligible, particularly at momenta $(0, π) - (π, 0)$ . Studies with more holes show precursors of metallic stripe formation, with holes sharing their individual spin arrangements, and AF-correlations generated across the stripe.

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