ELECTRICAL RESISTIVITY OF ANTIFERROMAGNET MNTE2

被引:12
|
作者
SAWAOKA, A
MIYAHARA, S
机构
来源
JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN | 1965年 / 20卷 / 11期
关键词
D O I
10.1143/JPSJ.20.2087
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
引用
收藏
页码:2087 / &
相关论文
共 50 条
  • [31] ELECTRICAL-RESISTIVITY NEAR CRITICAL BOUNDARY OF ANTIFERROMAGNET IN NIS2-XSEX
    KAMADA, M
    MORI, N
    MITSUI, T
    JOURNAL OF PHYSICS C-SOLID STATE PHYSICS, 1977, 10 (22): : L643 - L647
  • [32] Pressure-induced metallization and collapse of the antiferromagnetic state of MnTe2 -: art. no. 184403
    Vulliet, P
    Sanchez, JP
    Braithwaite, D
    Amanowicz, M
    Malaman, B
    PHYSICAL REVIEW B, 2001, 63 (18):
  • [33] Effect of pressure on the electrical resistivity of heavy fermion antiferromagnet Ce2RhIn8
    Ohara, S
    Shomi, Y
    Sakamoto, I
    PHYSICA B-CONDENSED MATTER, 2003, 329 : 612 - 613
  • [34] ANISOTROPIC MAGNETIC NEAREST-NEIGHBOR EXCHANGE INTERACTION IN THE PYRITE STRUCTURE - MNTE2, MNS2, AND MNSE2
    HEINILA, MT
    OJA, AS
    PHYSICAL REVIEW B, 1994, 49 (17): : 11995 - 12002
  • [35] Pressure Effects on Electrical Resistivity of Heavy-Fermion Antiferromagnet Ce2PdGa12
    Ohara, S.
    Yamashita, T.
    Shiraishi, T.
    Matsubayashi, K.
    Uwatoko, Y.
    26TH INTERNATIONAL CONFERENCE ON LOW TEMPERATURE PHYSICS (LT26), PTS 1-5, 2012, 400
  • [36] First-principle predictions of the electric and thermal transport performance on high-temperature thermoelectric semiconductor MnTe2
    Ma, Haoqin
    Yang, Houjiang
    Zhang, Xiaolian
    Duan, Bo
    Li, Wenjuan
    Zhai, Pengcheng
    Li, Guodong
    JOURNAL OF ALLOYS AND COMPOUNDS, 2022, 898
  • [37] Quenching of an antiferromagnet into high resistivity states using electrical or ultrashort optical pulses
    Z. Kašpar
    M. Surýnek
    J. Zubáč
    F. Krizek
    V. Novák
    R. P. Campion
    M. S. Wörnle
    P. Gambardella
    X. Marti
    P. Němec
    K. W. Edmonds
    S. Reimers
    O. J. Amin
    F. Maccherozzi
    S. S. Dhesi
    P. Wadley
    J. Wunderlich
    K. Olejník
    T. Jungwirth
    Nature Electronics, 2021, 4 : 30 - 37
  • [38] A FE-57 MOSSBAUER STUDY OF SPIN ARRANGEMENTS IN ANTI-FERROMAGNETIC MNS2, MNSE2 AND MNTE2
    KHAN, MAS
    MCCANN, VH
    WARD, JB
    POLLARD, RJ
    JOURNAL OF PHYSICS C-SOLID STATE PHYSICS, 1983, 16 (20): : 4011 - 4022
  • [39] Quenching of an antiferromagnet into high resistivity states using electrical or ultrashort optical pulses
    Kaspar, Z.
    Surynek, M.
    Zubac, J.
    Krizek, F.
    Novak, V
    Campion, R. P.
    Woernle, M. S.
    Gambardella, P.
    Marti, X.
    Nemec, P.
    Edmonds, K. W.
    Reimers, S.
    Amin, O. J.
    Maccherozzi, F.
    Dhesi, S. S.
    Wadley, P.
    Wunderlich, J.
    Olejnik, K.
    Jungwirth, T.
    NATURE ELECTRONICS, 2021, 4 (01) : 30 - 37
  • [40] The crystal structures of the compounds RuS2, OsS2, MnTe2 and AuSb2. With an appendix on the lattice constant of pyrite.
    Oftedal, I
    ZEITSCHRIFT FUR PHYSIKALISCHE CHEMIE--STOCHIOMETRIE UND VERWANDTSCHAFTSLEHRE, 1928, 135 (3/4): : 291 - 299
12345