Abstract: Based on the Monte Carlo method, we simulate the magnetization curves with various magnetic field orientations for various single Co nanowires at room temperature. The simulated switching field as a function of angle θ between the field and the wire axis is consistent well with the experimental data. Correspondingly, the coercivity as a function of angle θ is presented, which together with the switching field plays an important role on explaining the magnetic reversal mechanism. It is found that the angular dependence of coercivity depends on the diameter of nanowires, and the coercivity and switching field versus θ deviate markedly from the prediction from the classical uniform rotation mode in the chain-of-sphere model. Furthermore, the magnetic reversal configurations display that magnetization reversal in the wires with small diameters is a nucleation-propagation process, and it is similar to the curling spread process in the larger wires.
ZHONG Ke-Hua;HUANG Zhi-Gao;FENG Qian;JIANG Li-Qin;YANG Yan-Min;CHEN Zhi-Gao. Monte Carlo Simulation of Magnetization Behaviour of Co Nanowires[J]. 中国物理快报, 2006, 23(1): 200-203.
ZHONG Ke-Hua, HUANG Zhi-Gao, FENG Qian, JIANG Li-Qin, YANG Yan-Min, CHEN Zhi-Gao. Monte Carlo Simulation of Magnetization Behaviour of Co Nanowires. Chin. Phys. Lett., 2006, 23(1): 200-203.