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双模随机晶体场对混合自旋1/2和自旋1纳米管磁化强度的影响
引用本文:李晓杰,信苗苗,蔡秀国,刘恩超. 双模随机晶体场对混合自旋1/2和自旋1纳米管磁化强度的影响[J]. 四川大学学报(自然科学版), 2020, 57(5): 987-992
作者姓名:李晓杰  信苗苗  蔡秀国  刘恩超
作者单位:齐鲁理工学院,济南 250200;齐鲁理工学院,济南 250200;齐鲁理工学院,济南 250200;齐鲁理工学院,济南 250200
基金项目:齐鲁理工学院科技计划项目
摘    要:本文利用有效场论研究了原子掺杂对纳米管晶格点磁化强度的影响. 结果表明, 掺杂程度、晶场取值概率、最近邻交换相互作用与晶场强度相互竞争, 使系统具有丰富的磁化特性. 当负晶场作用于系统时, 系统发生一级相变. 负晶场越强, 对系统磁化强度的阻碍作用越明显. 当晶场参数和掺杂程度不同时, 系统磁化强度随温度的变化表现出奇异性.

关 键 词:随机晶场  磁化强度  Blume-Capel模型  纳米管  有效场理论
收稿时间:2019-05-16
修稿时间:2019-05-17

Effects of bimodal random crystal field on magnetic properties of mixed spin-1/2 and spin-1 on nanotube
LI Xiao-Jie,XIN Miao-Miao,CAI Xiu-Guo and LIU En-Chao. Effects of bimodal random crystal field on magnetic properties of mixed spin-1/2 and spin-1 on nanotube[J]. Journal of Sichuan University (Natural Science Edition), 2020, 57(5): 987-992
Authors:LI Xiao-Jie  XIN Miao-Miao  CAI Xiu-Guo  LIU En-Chao
Affiliation:Qilu Institute of Technology,Qilu Institute of Technology,Qilu Institute of Technology,Qilu Institute of Technology
Abstract:The effect of atomic doping on the magnetization of nanotube lattice points was studied by using the effective field theory. The results show that the doping degree, the probability of crystal field values, the nearest neighbor exchange interaction and the crystal field strength compete with each other, which make the system show rich magnetic characteristics. When the negative crystal field acts on the system, the first-order phase transition occurs. The stronger the negative crystal field, the more obvious the hindrance to the magnetization of the system.When the parameters and doping modes of crystal field are different, the evolution of the magnetization intensity on temperature exhibits unusual behaviors.
Keywords:Random crystal field   Magnetization intensity   Blume-Capel model   Nanotube   Effective field theory
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