Calculation of the Exchange Interaction Constant Between the Rare-Earth and the Transition Metal Sub-lattices in R2 Fe17-x Mx (M = AI or Ga)
HAO Yan-Ming
Department of Physics, Tianjin Normal University, Tianjin 300074
Calculation of the Exchange Interaction Constant Between the Rare-Earth and the Transition Metal Sub-lattices in R2 Fe17-x Mx (M = AI or Ga)
HAO Yan-Ming
Department of Physics, Tianjin Normal University, Tianjin 300074
关键词 :
75.30.Et ,
75.10.-b ,
75.50.-y
Abstract : A precise calculation of the exchange interaction constant JRT between the rare-earth sub-lattice and the transition metal sub-lattice in R2 Fe17-x Mx (R: rare-earth, M = Al or Ga) compounds is given. The calculated values for Tb2 Fe17-x Gax (x = 6 and 7) and Dy2 Fe17-x Alx (x = 5, 6, 7 and 8) compounds are in excellent agreement with the values derived from the high-field measurement.
Key words :
75.30.Et
75.10.-b
75.50.-y
出版日期: 2000-06-01
:
75.30.Et
(Exchange and superexchange interactions)
75.10.-b
(General theory and models of magnetic ordering)
75.50.-y
(Studies of specific magnetic materials)
引用本文:
HAO Yan-Ming. Calculation of the Exchange Interaction Constant Between the Rare-Earth and the Transition Metal Sub-lattices in R2 Fe17-x Mx (M = AI or Ga)[J]. 中国物理快报, 2000, 17(6): 444-445.
2 Fe17-x Mx (M = AI or Ga). Chin. Phys. Lett., 2000, 17(6): 444-445.
链接本文:
https://cpl.iphy.ac.cn/CN/
或
https://cpl.iphy.ac.cn/CN/Y2000/V17/I6/444
[1]
LIU Zhao-Sen. Magnetism of Rare-Earth Compounds with Non-Magnetic Crystal-Field Ground Levels
[2]
LIU Hui-Ping;SUN Yun-Zhou;YI Lin. Heat Conductivity in a Two-Dimensional Finite-Size Spin System with Dzyaloshinskii--Moriya Interactions
[3]
WANG Wei-Hua;ZOU Liang-Jian. Electronic States and Spatial Charge Distribution of Single Mn Impurity in Diluted Magnetic Semiconductors
[4]
ZHA Chao-Lin;ZHANG Yi-Song;MA Bin;ZHANG Zong-Zhi;JIN Qing-Yuan;GAN Fu-Xi;LIU Yao-Wen;GAO Tie-Ren. Perpendicular Exchange Coupling in TbFeCo/FePt Bilayer Films
[5]
FANG Yi-Kun;CHANG Cheng-Wu;CHANG Wen-Cheng;XIA Ai-Lin;CHEN Qiang;GE Hong-Liang;HAN Bao-Shan. Magnetic and Crystalline Microstructures of Fe--Pt--B Nanocomposite Ribbons
[6]
LIU Qin-Yong;TIAN Guang-Shan;YAN Xin-Zhong. Antiferromagnetic Phase Transition in the Quasi-Two-Dimensional Hubbard Model at Half Filling
[7]
LI Shan-Dong;BI Hong;FANG Jiang-Lin;ZHONG Wei;DU You-Wei. Surface Spins Pinning Effect on the Magnetic Properties in Co3 O4 Nanocrystallites Covered with Polymer Decomposition Residues
[8]
KOU Su-Peng. Fermion Bound States Around Skyrmions in Doped Antiferromagnets
[9]
ZHANG Dong-Jie;DU You-Wei. Giant Positive Magnetoresistance in Magnetic Multilayer Film Prepared by Ion-Beam Sputtering
[10]
PANG Zhi-Yong;FANG Yi-Kun;CHANG Huang-Wei;HAN Sheng-Hao;HAN Bao-Shan;CHANG Wen-Cheng. Magnetic Microstructures of Pry Fe90-y B10 (y = 8-11.76) Nanocrystalline Ribbons by Using Magnetic Force Microscopy
[11]
ZHANG Dong-Jie. Giant Positive Magnetoresistance in Grain-Oriented Cx Co1-x Alloys
[12]
K. Afif;A. Benyoussef;M. Hamedoun. Monte Carlo Simulations of Mixed Highly Frustrated Systems
[13]
K. Afif;A. Benyoussef;M. Hamedoun. Universal Class of Criticality of Diluted Strongly Frustrated
Systems
[14]
ZHANG Huai-Wu;SHI Yu;ZHONG Zhi-Yong. Electric and Magnetic Properties of a New Ferrite-Ceramic
Composite Material
[15]
K. Afif;A. Benyoussef;J. Diouri
. Auto-correlation Effects on the sp3 -d Exchange Interaction in Cd1-x Mnx Te/CdTe Multilayers
2000, Vol. 17 
