We study the characteristics of phase transition to take the top-priority of randomization in the rules of NaSch model (i.e. noise-first model) into account via computing the relaxation time and the order parameter...We study the characteristics of phase transition to take the top-priority of randomization in the rules of NaSch model (i.e. noise-first model) into account via computing the relaxation time and the order parameter. The scaling exponents of the relaxation time and the scaling relation of order parameter, respectively, are obtained.展开更多
基金The project supported by National Natural Science Foundation of China under Grant Nos. 10362001 and 10532060 and the Natural Science Foundation of Guangxi Zhuang Autonomous Region under Grant Nos. 0342012 and 0640003
文摘We study the characteristics of phase transition to take the top-priority of randomization in the rules of NaSch model (i.e. noise-first model) into account via computing the relaxation time and the order parameter. The scaling exponents of the relaxation time and the scaling relation of order parameter, respectively, are obtained.
