New quantum Monte Carlo study of quantum critical phenomena with Trotter-number-dependent finite-size scaling and non-equilibrium relaxation

Details New quantum Monte Carlo study of quantum critical phenomena with Trotter-number-dependent finite-size scaling and non-equilibrium relaxation New quantum Monte Carlo study of quantum critical phenomena with Trotter-number-dependent finite-size scaling and non-equilibrium relaxation

1998-08-31

arxiv.org/abs/cond-mat/9808337v1

Physics

Condensed Matter

Statistical Mechanics

15 pages, 17 Postscript figures, LaTeX, J. Phys. A in press

Scientific paper

10.1088/0305-4470/31/39/010

We propose a new efficient scheme for the quantum Monte Carlo study of quantum critical phenomena in quantum spin systems. Rieger and Young's Trotter-number-dependent finite-size scaling in quantum spin systems and Ito {\it et al.}'s evaluation of the transition point with the non-equilibrium relaxation in classical spin systems are combined and generalized. That is, only one Trotter number and one inverse temperature proportional to system sizes are taken for each system size, and the transition point of the transformed classical spin model is estimated as the point at which the order parameter shows power-law decay. The present scheme is confirmed by the determination of the critical phenomenon of the one-dimensional $S=1/2$ asymmetric XY model in the ground state. The estimates of the transition point and the critical exponents $\beta$, $\gamma$ and $\nu$ are in good agreement with the exact solutions. The dynamical critical exponent is also estimated as ${\mit \Delta}=2.14(I4(Jpm 0.06$, which is consistent with that of the two-dimensional Ising model.

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