Finite Size Scaling and Critical Exponents in Critical Relaxation
Abstract
We simulate the critical relaxation process of the two-dimensional Ising model with the initial state both completely disordered or completely ordered. Results of a new method to measure both the dynamic and static critical exponents are reported, based on the finite size scaling for the dynamics at the early time. From the time-dependent Binder cumulant, the dynamical exponent z is extracted independently, while the static exponents β/ and are obtained from the time evolution of the magnetization and its higher moments.
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