Mixed valence on a pyrochlore lattice - as a geometrically frustrated magnet

被引:0
|
作者
N. Shannon
机构
[1] Max-Planck-Institut für Physik komplexer Systeme,
[2] Nöthnitzer Str. 38,undefined
[3] 01187 Dresden,undefined
[4] Germany,undefined
来源
The European Physical Journal B - Condensed Matter and Complex Systems | 2002年 / 27卷
关键词
PACS. 71.27.+a Strongly correlated electron systems; heavy fermions – 71.10.-w Theories and models of many-electron systems – 75.40.Cx Static properties (order parameter, static susceptibility, heat capacities, critical exponents, etc.);
D O I
暂无
中图分类号
学科分类号
摘要
Above 40 K, the magnetic susceptibility of the heavy Fermion spinel LiV2O4 has many features in common with those of geometrically frustrated magnetic insulators, while its room temperature resistivity comfortably exceeds the Mott-Regel limit. This suggests that local magnetic moments, and the underlying geometry of the pyrochlore lattice, play an important role in determining its magnetic properties. We extend a recently introduced tetragonal mean field theory for insulating pyrochlore antiferromagnets to the case where individual tetrahedra contain spins of different lengths, and use this as a starting point to discuss three different scenarios for magnetic and electronic transitions in LiV2O4.
引用
收藏
页码:527 / 540
页数:13
相关论文
共 50 条
  • [21] Emergent ferromagnetic states revealed in a geometrically frustrated triangular lattice
    Xu, Muqing
    Greiner, Markus
    NATURE, 2023,
  • [22] Charge Dynamics in a Correlated Fermion System on a Geometrically Frustrated Lattice
    Naka, Makoto
    Ishihara, Sumio
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 2015, 84 (02)
  • [23] A simulation study on the magnetic ordering in an artificial geometrically frustrated lattice
    Li, Y.
    Wang, T. X.
    PHYSICS LETTERS A, 2010, 374 (43) : 4475 - 4478
  • [24] Magnetocapacitance in geometrically frustrated magnet ZnFe2O4
    Suzuki, T
    Aikawa, Y
    Katsufuji, T
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 2005, 74 (03) : 863 - 866
  • [25] Phase Competition in the Double-Exchange Model on the Frustrated Pyrochlore Lattice
    Motome, Yukitoshi
    Furukawa, Nobuo
    PHYSICAL REVIEW LETTERS, 2010, 104 (10)
  • [26] Magnetic properties of the novel frustrated lattice magnet likasite
    Kikuchi, Hikomitsu
    Kunieda, Kenji
    Asano, Takayuki
    Fujii, Yutaka
    Inagaki, Yuji
    Matsuo, Akira
    Kindo, Koichi
    20TH INTERNATIONAL CONFERENCE ON MAGNETISM, ICM 2015, 2015, 75 : 653 - 658
  • [27] Spin correlations in the geometrically frustrated pyrochlore Tb2Mo2O7
    Singh, D. K.
    Helton, J. S.
    Chu, S.
    Han, T. H.
    Bonnoit, C. J.
    Chang, S.
    Kang, H. J.
    Lynn, J. W.
    Lee, Y. S.
    PHYSICAL REVIEW B, 2008, 78 (22):
  • [28] Optical spectroscopy of the geometrically frustrated pyrochlore Ho2Ti2O7
    Macalik, L.
    Maczka, M.
    Solarz, P.
    Fuentes, A. F.
    Matsuhira, K.
    Hiroi, Z.
    OPTICAL MATERIALS, 2009, 31 (06) : 790 - 794
  • [29] Spin and dipole order in geometrically frustrated mixed-valence manganite Pb3Mn7O15
    S. A. Ivanov
    A. A. Bush
    M. Hudl
    A. I. Stash
    G. André
    R. Tellgren
    V. M. Cherepanov
    A. V. Stepanov
    K. E. Kamentsev
    Y. Tokunaga
    Y. Taguchi
    Y. Tokura
    P. Nordblad
    R. Mathieu
    Journal of Materials Science: Materials in Electronics, 2016, 27 : 12562 - 12573
  • [30] Spin and dipole order in geometrically frustrated mixed-valence manganite Pb3Mn7O15
    Ivanov, S. A.
    Bush, A. A.
    Hudl, M.
    Stash, A. I.
    Andre, G.
    Tellgren, R.
    Cherepanov, V. M.
    Stepanov, A. V.
    Kamentsev, K. E.
    Tokunaga, Y.
    Taguchi, Y.
    Tokura, Y.
    Nordblad, P.
    Mathieu, R.
    JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, 2016, 27 (12) : 12562 - 12573
12345