Criticality of the (2+1)-dimensional S=1 transverse-field Ising model with extended interactions: Suppression of corrections to scaling

TL;DR

This study investigates the critical behavior of the (2+1)-dimensional S=1 transverse-field Ising model using numerical diagonalization, demonstrating improved scaling and estimating critical indices with various interactions.

Contribution

It introduces a tuning method for coupling parameters in the S=1 model to suppress scaling corrections and accurately estimate critical indices.

Findings

Critical indices estimated as 1/nu=1.586(6) and eta=0.034(4).

Scaling behavior improved by tuning coupling-constant parameters.

Incorporates interactions like single-ion anisotropy and biquadratic interactions.

Abstract

The criticality of the (2+1)-dimensional S=1 transverse-field Ising model is investigated with the numerical diagonalization method. The scaling behavior is improved by tuning the coupling-constant parameters; the S=1 spin model allows us to incorporate a variety of interactions such as the single-ion anisotropy and the biquadratic interactions. Simulating the clusters with N=6,8,...,20 spins, we estimate the critical indices as 1/\nu=1.586(6) and \eta=0.034(4).