标题:
随机磁场中晶场作用的混合自旋横向伊辛模型的磁化过程The Magnetization Processes of Mixed Spin Transverse Ising Model with the Crystal Field in a Random Magnetic Field
作者:
丁直
关键字:
磁化过程, 混合自旋横向伊辛模型, 晶场, 随机磁场Magnetization Processes; Mixed Spin Transverse Ising Model; Crystal Field; Random Magnetic Field
期刊名称:
《Advances in Condensed Matter Physics》, Vol.2 No.3, 2013-08-20
摘要:
本文在有效场理论框架内,研究随机磁场中晶场作用的混合自旋横向伊辛模型的磁化过程。以二模磁场中混合自旋伊辛模型为基础,分别增大随机浓度、负晶场和横场,以此考察随机磁场、负晶场和横场对磁化过程的影响。随着磁场增大,磁化范围降低。随机浓度和负晶场都能削弱基态的起始磁化简并,不同简并范围之间存在分界线。通过抑制自旋为1子格磁化强度,负晶场还对起始磁化值产生有趣的影响。横场完全打开基态的起始磁化简并。
Within the framework of the effective field theory (EFT), we investigate the magnetization processes of mixed spin-1/2 and spin-1 transverse Ising model with the crystal field in a random magnetic field. Based on the mixed spin Ising model in a bimodal magnetic field, the influences of random magnetic field, the crystal field, and transverse field acting on magnetization process are presented by increasing random concentration, introducing a negative crystal field or transverse field, respectively. As the magnetic field enhancing, the magnetization range reduces. Both random concentration and negative crystal field can weaken the degeneracy of initial magnetization at base state. There exist some demarcation lines between different degeneracy extents. Negative crystal field also affects interestingly the initial magnetization by depressing the sublattice magnetization of spin-1 magnetic atoms. Transverse field opens thoroughly the degeneracy of initial magnetization at zero temperature.