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NaZn13型Fe基化合物的结构和热力学性质研究
引用本文:陈怡,申江. NaZn13型Fe基化合物的结构和热力学性质研究[J]. 物理学报, 2009, 58(Z1)
作者姓名:陈怡  申江
作者单位:北京科技大学应用物理研究所,北京,100083
基金项目:国家重点基础研究发展规划(973计划) 
摘    要:利用Chen-Mbius晶格反演获得的原子间相互作用势,对NaZn13型Fe基金属间化合物进行原子级模拟研究.计算结果表明,Si原子和Co原子均优先占据96i晶位,Si原子和Co原子替代Fe原子后晶体平均结合能降低.随着Co含量的增加,LaFe13-x-yCoySix和NdFe13-x-yCoySix的晶格参数逐渐降低.声子态密度中,稀土原子主要激发低频模,Si原子主要激发高频模.LaFe11.5-yCoySi1.5化合物的德拜温度随Co含量的增加而增高.

关 键 词:晶格反演  原子间相互作用势  热力学性质  磁致冷材料

Structural and thermodynamic properties of Fe based compounds with NaZn13-type
Chen Yi,Shen Jiang. Structural and thermodynamic properties of Fe based compounds with NaZn13-type[J]. Acta Physica Sinica, 2009, 58(Z1)
Authors:Chen Yi  Shen Jiang
Abstract:A series of Fe based compounds with NaZn13-type structure is studied by using inversed interatomic potentials. Calculated results show that Si atoms and Co atoms are preferentially substituted for Fe atoms at 96i site. The addition of Si or Co makes the cohesive energy decrease. It is found that the lattice constants of LaFe13-x-yCoySix and NdFe13-x-yCoy Six decrease with the increase of Co content. The investigation on the phonon density of states indicates that the lower frequency modes are mostly excited by the rare-earth atoms, and the higher frequency modes are mostly excited by Si atoms. Moreover, the addition of Co atoms makes the Debye temperature of LaFe11.5-yCoySi1.5 compounds increase.
Keywords:lattice inversion  interatomic potentials  thermodynamic properties  magnetic refrigerant materials
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