Tight-binding based non-collinear spin model and magnetic correlations in iron

被引:0
|
作者
Mukherjee, S
Cohen, RE
机构
[1] Carnegie Inst Sci, Geophys Lab, Washington, DC 20015 USA
[2] Carnegie Inst Sci, Ctr High Pressure Res, Washington, DC 20015 USA
[3] CALTECH, Seismol Lab, Pasadena, CA 91125 USA
来源
JOURNAL OF COMPUTER-AIDED MATERIALS DESIGN | 2002年 / 8卷 / 2-3期
关键词
iron; non-collinear magnetism; pressure; tight-binding;
D O I
暂无
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
We have extended a first principles tight-binding total energy model to include magnetic correlations. We have tested the validity of the model against ab-initio calculations for bcc and fcc Fe. We find that our model can quantitatively describe the pressure dependence of magnetic moments and magnetization energy for bcc and fcc Fe. Moreover, in fcc Fe with increasing pressures it is able to capture the transitions from ferromagnetic to non-collinear spin to antiferromagnetic and finally to the non-magnetic state.
引用
收藏
页码:107 / 115
页数:9
相关论文
共 50 条
  • [1] Spin dynamics from a constrained magnetic tight-binding model
    Cardias, Ramon
    Barreteau, Cyrille
    Thibaudeau, Pascal
    Fu, Chu Chun
    PHYSICAL REVIEW B, 2021, 103 (23)
  • [2] Tight-binding model for iron pnictides
    Calderon, M. J.
    Valenzuela, B.
    Bascones, E.
    PHYSICAL REVIEW B, 2009, 80 (09)
  • [3] Non-collinear magnetic atomic cluster expansion for iron
    Matteo Rinaldi
    Matous Mrovec
    Anton Bochkarev
    Yury Lysogorskiy
    Ralf Drautz
    npj Computational Materials, 10
  • [4] Spin transport and spin torque in a magnetic nanowire with a non-collinear magnetic order
    Berakdar, J.
    Dugaev, V. K.
    Vieira, V. R.
    Sacramento, P. D.
    Barnas, J.
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON NANOSCIENCE AND TECHNOLOGY, 2007, 61 : 105 - 109
  • [5] Non-collinear magnetic atomic cluster expansion for iron
    Rinaldi, Matteo
    Mrovec, Matous
    Bochkarev, Anton
    Lysogorskiy, Yury
    Drautz, Ralf
    NPJ COMPUTATIONAL MATERIALS, 2024, 10 (01)
  • [6] Magnetic and magnetic inverse spin Hall effects in a non-collinear antiferromagnet
    Kimata, Motoi
    Chen, Hua
    Kondou, Kouta
    Sugimoto, Satoshi
    Muduli, Prasanta K.
    Ikhlas, Muhammad
    Omori, Yasutomo
    Tomita, Takahiro
    MacDonald, Allan H.
    Nakatsuji, Satoru
    Otani, Yoshichika
    NATURE, 2019, 565 (7741) : 627 - +
  • [7] Magnetic and magnetic inverse spin Hall effects in a non-collinear antiferromagnet
    Motoi Kimata
    Hua Chen
    Kouta Kondou
    Satoshi Sugimoto
    Prasanta K. Muduli
    Muhammad Ikhlas
    Yasutomo Omori
    Takahiro Tomita
    Allan. H. MacDonald
    Satoru Nakatsuji
    Yoshichika Otani
    Nature, 2019, 565 : 627 - 630
  • [8] Spin and charge transport through non-collinear magnetic nanowires
    Sedlmayr, N.
    Dugaev, V. K.
    Berakdar, J.
    Vieira, V. R.
    Araujo, M. A. N.
    Barnas, J.
    JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 2010, 322 (9-12) : 1419 - 1421
  • [9] Evidence of non-collinear spin texture in magnetic moiré superlattices
    Hongchao Xie
    Xiangpeng Luo
    Zhipeng Ye
    Zeliang Sun
    Gaihua Ye
    Suk Hyun Sung
    Haiwen Ge
    Shaohua Yan
    Yang Fu
    Shangjie Tian
    Hechang Lei
    Kai Sun
    Robert Hovden
    Rui He
    Liuyan Zhao
    Nature Physics, 2023, 19 : 1150 - 1155
  • [10] Evidence of non-collinear spin texture in magnetic moire superlattices
    Xie, Hongchao
    Luo, Xiangpeng
    Ye, Zhipeng
    Sun, Zeliang
    Ye, Gaihua
    Sung, Suk Hyun
    Ge, Haiwen
    Yan, Shaohua
    Fu, Yang
    Tian, Shangjie
    Lei, Hechang
    Sun, Kai
    Hovden, Robert
    He, Rui
    Zhao, Liuyan
    NATURE PHYSICS, 2023, 19 (08) : 1150 - +
12345