Charge disproportionation and antiferromagnetic order of Sr3Fe2O7

被引：59

作者：

Kuzushita, K ^{[1
]}

Morimoto, S

Nasu, S

Nakamura, S

机构：

[1] Osaka Univ, Grad Sch Engn, Dept Phys Sci, Div Mat Phys, Toyonaka, Osaka 5608531, Japan

[2] Teikyo Univ, Sch Sci & Engn, Utsunomiya, Tochigi 3208551, Japan

来源：

JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN | 2000年 / 69卷 / 09期

关键词：

Fe-57 Mossbauer spectroscopy; magnetization measurement; electrical resistivity measurement; Sr3Fe2O7; charge disproportionation; helical spin structure;

D O I：

10.1143/JPSJ.69.2767

中图分类号：

O4 [物理学];

学科分类号：

0702 ;

摘要：

The charge disproportionation and the magnetic properties of Sr3Fe2O7, which has a double-layered perovskite structure, have been investigated. From Fe-57 Mossbauer measurements, the Neel temperature TN and the critical temperature for the charge disproportionation reaction (2Fe(4+) --> Fe3+ + Fe5+) are determined to be 120 K +/- 2 K and 343 K +/- 10 K, respectively. Above 343 K, spectra clearly show a Fe4+ singlet. The Fe-57 Mossbauer spectrum at 4.5 K: under externally applied longitudinal magnetic field consists of four magnetically split components and is similar to the spectrum obtained from CaFeO3 with a helical spin structure. With an increase of the external magnetic field, the relative intensity of the 2nd and 5th absorption peaks increases, which implies that the magnetic moments of Fe have a tendency to form a texture perpendicular to the direction of the external magnetic field.

引用

页码：2767 / 2770

页数：4

共 50 条

[1] μSR Measurements of the Magnetism of Sr3Fe2O7
MacFarlane, W. A.
Peets, D. C.
Buck, T.
Chow, K. H.
Cortie, D. L.
Jain, A.
Pomerantz, C.
Tschense, C. B. L.
Wang, D.
Keimer, B.
13TH INTERNATIONAL CONFERENCE ON MUON SPIN ROTATION, RELAXATION AND RESONANCE, 2014, 551
[2] Collapse of the charge disproportionation and covalency-driven insulator-metal transition in Sr3Fe2O7 under pressure
Adler, P
Schwarz, U
Syassen, K
Rozenberg, GK
Machavariani, GY
Milner, AP
Pasternak, MP
Hanfland, M
PHYSICAL REVIEW B, 1999, 60 (07) : 4609 - 4617
[3] Electronic structure and band gap of the negative charge-transfer material Sr3Fe2O7
Abbate, M
Ascolani, H
Prado, F
Caneiro, A
SOLID STATE COMMUNICATIONS, 2004, 129 (02) : 113 - 116
[4] Pressure-induced metallization of the perovskite Sr3Fe2O7
Rozenberg, GK
Machavariani, GY
Pasternak, MP
Milner, AP
Hearne, GR
Taylor, RD
Adler, P
PHYSICA STATUS SOLIDI B-BASIC RESEARCH, 1999, 211 (01): : 351 - 357
[5] Rich magnetic phase diagram of putative helimagnet Sr3Fe2O7
Andriushin, Nikita D.
Grumbach, Justus
Kim, Jung-Hwa
Reehuis, Manfred
Tymoshenko, Yuliia, V
Onykiienko, Yevhen A.
Jain, Anil
Macfarlane, W. Andrew
Maljuk, Andrey
Granovsky, Sergey
Hoser, Andreas
Pomjakushin, Vladimir
Ollivier, Jacques
Doerr, Mathias
Keimer, Bernhard
Inosov, Dmytro S.
Peets, Darren C.
PHYSICAL REVIEW B, 2023, 108 (17)
[6] Thermodynamic investigation of the Ruddlesden-Popper phase Sr3Fe2O7
Knyazev, A. V.
Alekseeva, Yu. V.
Smirnova, N. N.
Krasheninnikova, O. V.
Markin, A. V.
Syrov, E. V.
Elipasheva, E. V.
Smirnova, L. V.
JOURNAL OF CHEMICAL THERMODYNAMICS, 2020, 143 (143):
[7] Structural and Thermoelectric Properties of Rare-Earth-Substituted Sr3Fe2O7
Kakemoto, Hirofumi
Ishikawa, Masahiko
Yazaki, Jiyo
Irie, Hiroshi
MATERIALS TRANSACTIONS, 2013, 54 (10) : 1986 - 1992
[8] Thermal Activation of Sr3Fe2O7 Electrocatalysts for Water Oxidation at Neutral pH
Takashima, Toshihiro
Ishikawa, Koki
Irie, Hiroshi
SOLAR FUELS AND PHOTOCATALYSTS 3, 2014, 61 (22): : 35 - 41
[9] Charge disproportionation and magnetic order of Fe in LaSr3Fe3O10
Kuzushita, K
Morimoto, S
Nasu, S
Kawasaki, S
Takano, M
SOLID STATE COMMUNICATIONS, 2002, 123 (3-4) : 107 - 111
[10] Reentrant multiple-<bold>q</bold> magnetic order and a "spin meta-cholesteric" phase in Sr3Fe2O7
Andriushin, N. D.
Muller, J.
Pavlovskii, N. S.
Grumbach, J.
Granovsky, S.
Tymoshenko, Y. V.
Zaharko, O.
Ivanov, A.
Ollivier, J.
Doerr, M.
Keimer, B.
Mostovoy, M.
Inosov, D. S.
Peets, D. C.
NPJ QUANTUM MATERIALS, 2024, 9 (01)

← 1 2 3 4 5 →