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Relation between stabilization energy, crystal field coefficient and the magnetic exchange interaction for Tb^(3+) ion

Relation between stabilization energy, crystal field coefficient and the magnetic exchange interaction for Tb^(3+) ion
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摘要 Based on a single ion model, Hamiltonian of the simplest form about magnetocrystalline anisotropy for Tb3+ ion was solved by using the numerical method. The relation between the stabilization energy, crystal field coefficient B20 and the magnetic exchange interaction was studied as temperature approaches to 0 K. The results show that the stabilization energy contributed by Tb3+ is linear with crystal field coefficient B20 approximately, but it is insensitive to the change of magnetic exchange interaction for the strong magnetic substances such as TbCo5, Tb2Co17 and Tb2Fe14B compounds. Based on a single ion model, Hamiltonian of the simplest form about magnetocrystalline anisotropy for Tb3+ ion was solved by using the numerical method. The relation between the stabilization energy, crystal field coefficient B20 and the magnetic exchange interaction was studied as temperature approaches to 0 K. The results show that the stabilization energy contributed by Tb3+ is linear with crystal field coefficient B20 approximately, but it is insensitive to the change of magnetic exchange interaction for the strong magnetic substances such as TbCo5, Tb2Co17 and Tb2Fe14B compounds.
作者 ZHANG Xiangmu MA Wenjuan CUI Shuwen WANG Lihua
机构地区 Physics Department
出处 《Rare Metals》 SCIE EI CAS CSCD 2006年第z1期602-604,共3页 稀有金属(英文版)
关键词 single ion model magnetic exchange interaction crystal field coefficient stabilization energy single ion model magnetic exchange interaction crystal field coefficient stabilization energy
分类号 TG146.4 [金属学及工艺—金属材料]
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参考文献10

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Rare Metals
2006年 第z1期

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