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Your search keyword '"Tsai, Shan-Ho"' showing total 8 results
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8 results on '"Tsai, Shan-Ho"'

1. Finite size scaling for a first order transition where a continuous symmetry is broken: The spin-flop transition in the 3D XXZ Heisenberg antiferromagnet

Author

Xu, Jiahao, Tsai, Shan-Ho, Landau, D. P., and Binder, K.

Subjects
Physics - Computational Physics, Condensed Matter - Statistical Mechanics
Abstract

Finite size scaling for a first order phase transition where a continuous symmetry is broken is developed using an approximation of Gaussian probability distributions with a phenomenological "degeneracy" factor included. Predictions are compared with data from Monte Carlo simulations of the three-dimensional, XXZ Heisenberg antiferromagnet in a field in order to study the finite size behavior on a $L \times L \times L$ simple cubic lattice for the first order "spin-flop" transition between the Ising-like antiferromagnetic state and the canted, XY-like state. Our theory predicts that for large linear dimension $L$ the field dependence of all moments of the order parameters as well as the fourth-order cumulants exhibit universal intersections. Corrections to leading order should scale as the inverse volume. The values of these intersections at the spin-flop transition point can be expressed in terms of a factor $q$ that characterizes the relative degeneracy of the ordered phases. Our theory yields $q=\pi$, and we present numerical evidence that is compatible with this prediction. The agreement between the theory and simulation implies a heretofore unknown universality can be invoked for first order phase transitions., Comment: 20 pages, 21 figures

Published
2019
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2. Exploring Replica-Exchange Wang-Landau sampling in higher-dimensional parameter space

Author

Valentim, Alexandra, Rocha, Julio C. S., Tsai, Shan-Ho, Li, Ying Wai, Eisenbach, Markus, Fiore, Carlos E., and Landau, David P.

Subjects
Physics - Computational Physics
Abstract

We considered a higher-dimensional extension for the replica-exchange Wang-Landau algorithm to perform a random walk in the energy and magnetization space of the two-dimensional Ising model. This hybrid scheme combines the advantages of Wang-Landau and Replica-Exchange algorithms, and the one-dimensional version of this approach has been shown to be very efficient and to scale well, up to several thousands of computing cores. This approach allows us to split the parameter space of the system to be simulated into several pieces and still perform a random walk over the entire parameter range, ensuring the ergodicity of the simulation. Previous work, in which a similar scheme of parallel simulation was implemented without using replica exchange and with a different way to combine the result from the pieces, led to discontinuities in the final density of states over the entire range of parameters. From our simulations, it appears that the replica-exchange Wang-Landau algorithm is able to overcome this difficulty, allowing exploration of higher parameter phase space by keeping track of the joint density of states., Comment: Proceedings of CCP2014 will appear in Journal of Physics: Conference Series (JPCS), published by the IOP

Published
2015
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