Z. Fadil, C. Raorane, D. Kabouchi, R. El Fdil, Abdulrahman A. Alsayyari, S. Saadaoui, S. Kim, A. Mhirech, E. Salmani
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引用次数: 0
Abstract
This study explores the magnetic properties of Borospherene-like and Buckminsterfullerene-like lattices using Monte Carlo simulation, revealing novel behaviors. The dependency of blocking temperature (TB) on external magnetic field strength (H), linear coupling interaction (J), and biquadratic coupling interaction (K) was studied and compared between the two lattice types. Additionally, the evolution of coercive field (HC) with J and K parameters for both lattice types was analyzed. This study highlights the unique magnetic responses of these lattices and their potential applications in magnetic research and nanotechnology.
本研究利用蒙特卡洛模拟探索了类鲍罗圈烯晶格和类巴克明斯特富勒烯晶格的磁特性,揭示了它们的新行为。研究了阻塞温度(TB)对外部磁场强度(H)、线性耦合作用(J)和双四耦合作用(K)的依赖性,并对两种晶格类型进行了比较。此外,还分析了两种晶格类型的矫顽力场(HC)随 J 和 K 参数的变化情况。这项研究强调了这些晶格独特的磁响应及其在磁研究和纳米技术中的潜在应用。