Multi-Grid Monte Carlo via XY Embedding. II. Two-Dimensional SU(3) Principal Chiral Model

Abstract

We carry out a high-precision simulation of the two-dimensional SU(3) principal chiral model at correlation lengths up to 4 × 105, using a multi-grid Monte Carlo (MGMC) algorithm and approximately one year of Cray C-90 CPU time. We extrapolate the finite-volume Monte Carlo data to infinite volume using finite-size-scaling theory, and we discuss carefully the systematic and statistical errors in this extrapolation. We then compare the extrapolated data to the renormalization-group predictions. The deviation from asymptotic scaling, which is ≈ 12% at 25, decreases to ≈ 2% at 4 × 105. We also analyze the dynamic critical behavior of the MGMC algorithm using lattices up to 256 × 256, finding the dynamic critical exponent zint, M2 ≈ 0.45 0.02 (subjective 68% confidence interval). Thus, for this asymptotically free model, critical slowing-down is greatly reduced compared to local algorithms, but not completely eliminated.

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