Magnetic Excitations of Coupled Spin Ladders: a Quantum Monte Carlo Study

TL;DR

This study uses Quantum Monte Carlo simulations to analyze magnetic excitations in coupled spin ladders, revealing an hourglass spectrum consistent with experimental observations in high-T_c materials.

Contribution

It provides a detailed quantum Monte Carlo analysis of magnetic excitations in coupled spin ladders, capturing quantum fluctuations near critical points and matching experimental spectra.

Findings

Hourglass magnetic excitation spectrum observed

High-energy peaks rotated by 45 degrees

Excitations depend on interladder coupling and stripe disorder

Abstract

We calculate the magnetic excitation spectrum in the stripe phase of high-T_c materials. The stripes are modeled as coupled spin-1/2 ladders and the spin dynamics is extracted using Quantum Monte Carlo (QMC) simulations, which can capture the strong quantum fluctuations near quantum critical points of coupled spin ladders. We find a characteristic hourglass magnetic excitation spectrum with high-energy peaks rotated by 45 degrees compared to the incommensurate low-energy peaks in good agreement with the experimental data. The excitations are investigated quantitatively as a function of interladder coupling, ladder width, and domain formation with stripe disorder.