Ground state and finite temperature behavior of 1/4-filled band zigzag ladders

TL;DR

This paper investigates the ground state and finite temperature properties of a 1/4-filled zigzag ladder with frustration, revealing how bond distortion, spin gap, and charge ordering are interrelated across different dimensions.

Contribution

It provides numerical analysis of the ground state and thermodynamics of a frustrated 1/4-filled zigzag ladder, highlighting the independence of bond distortion from electron-electron interactions and the simultaneous occurrence of spin and charge transitions.

Findings

Spin gap increases with frustration degree.

Bond distortion pattern is independent of electron-electron interaction.

Charge and spin transitions occur simultaneously in the ladder.

Abstract

We consider the simplest example of lattice frustration in the 1/4-filled band, a one-dimensional chain with next-nearest neighbor interactions. For this zigzag ladder with electron-electron as well as electron-phonon interactions we present numerical results for ground state as well as thermodynamic properties. In this system the ground state bond distortion pattern is independent of electron-electron interaction strength. The spin gap in the ground state of the zigzag ladder increases with the degree of frustration. Unlike in one-dimension, where the spin-gap and charge ordering transitions can be distinct, we show that in the ladder they occur simultaneously. We discuss spin gap and charge ordering transitions in 1/4-filled materials with one, two, or three dimensional crystal structures. We show empirically that regardless of dimensionality the occurrence of simultaneous or distinct charge and magnetic transitions can be correlated with the ground state bond distortion pattern.