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Monte carlo simulation of magnetization and coercivity of free magnetic clusters 被引量:4

Monte carlo simulation of magnetization and coercivity of free magnetic clusters
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摘要 Based on Monte Carlo method, the oscillatory behaviour of the average magnetic moment as a function of the cluster sizes and the temperature dependences of magnetic moment with different sizes have been studied. It is found that the oscillations superimposed on the decreasing moment are associated with not only the geometrical structure effects but also the thermal fluctuation. The hystereses and thermal coercivities for free clusters with zero and finite uniaxial anisotropies have been calculated. The simulated thermal dependence of the coercivity is consistent with the experimental result, but does not fit the T^α law in the whole temperature range. It is evident that an easy magnetization direction and an anisotropy resulting from the spin configurations exist in the free clusters with the pure exchange interaction, which is also proved by the natural angle and energy distribution of clusters. A systematic theoretical analysis is also made to establish the relationship between natural angle and coercivity. Based on Monte Carlo method, the oscillatory behaviour of the average magnetic moment as a function of the cluster sizes and the temperature dependences of magnetic moment with different sizes have been studied. It is found that the oscillations superimposed on the decreasing moment are associated with not only the geometrical structure effects but also the thermal fluctuation. The hystereses and thermal coercivities for free clusters with zero and finite uniaxial anisotropies have been calculated. The simulated thermal dependence of the coercivity is consistent with the experimental result, but does not fit the T^α law in the whole temperature range. It is evident that an easy magnetization direction and an anisotropy resulting from the spin configurations exist in the free clusters with the pure exchange interaction, which is also proved by the natural angle and energy distribution of clusters. A systematic theoretical analysis is also made to establish the relationship between natural angle and coercivity.
机构地区 Department of Physics
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2006年第7期1602-1610,共9页 中国物理B(英文版)
基金 Project supported by the State Key Program of Basic Research of China (Grant No 2005CB623605), the Natural Science Foundation of Fujian Province, China (Grant Nos E0320002 and 2005K020), the National Natural Science Foundation of China (Grant No 10474037).
关键词 Monte Carlo CLUSTER MAGNETIZATION HYSTERESIS Monte Carlo, cluster, magnetization, hysteresis
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