Ferromagnetic-antiferromagnetic transition of itinerant electron magnets Mn3-xFexSi

H. Miki; K. Ohoyama; H. Onodera; H. Yamauchi; Y. Yamaguchi; H. Nojiri; M. Motokawa; S. Funahashi; S. Tomiyoshi

doi:10.1016/S0921-4526(97)00146-4

Ferromagnetic-antiferromagnetic transition of itinerant electron magnets Mn_3-xFe_xSi

H. Miki, K. Ohoyama, H. Onodera, H. Yamauchi, Y. Yamaguchi, H. Nojiri, M. Motokawa, S. Funahashi, S. Tomiyoshi

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

By combining both neutron diffraction and magnetization measurements the magnetic phase diagram is completed for Mn_3-xFe_xSi system. The antiferromagnetism is realized in x < 1.25, and then ferromagnetism appears in x ≥ 1.25. The Néel temperature increases gradually with increasing x, and the Curie temperature for x > 1.25 seems to continue smoothly from the value of TN. In the low temperature region for x ≥ 1.25, canting ferromagnetism takes place.

Original language	English
Pages (from-to)	465-466
Number of pages	2
Journal	Physica B: Condensed Matter
Volume	237-238
DOIs	https://doi.org/10.1016/S0921-4526(97)00146-4
Publication status	Published - 1997 Jul

Keywords

Ferromagnetic-antiferromagnetic transition
Magnetization
MnFeSi
Neutron scattering

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

Access to Document

10.1016/S0921-4526(97)00146-4

Cite this

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title = "Ferromagnetic-antiferromagnetic transition of itinerant electron magnets Mn3-xFexSi",

abstract = "By combining both neutron diffraction and magnetization measurements the magnetic phase diagram is completed for Mn3-xFexSi system. The antiferromagnetism is realized in x < 1.25, and then ferromagnetism appears in x ≥ 1.25. The N{\'e}el temperature increases gradually with increasing x, and the Curie temperature for x > 1.25 seems to continue smoothly from the value of TN. In the low temperature region for x ≥ 1.25, canting ferromagnetism takes place.",

keywords = "Ferromagnetic-antiferromagnetic transition, Magnetization, MnFeSi, Neutron scattering",

author = "H. Miki and K. Ohoyama and H. Onodera and H. Yamauchi and Y. Yamaguchi and H. Nojiri and M. Motokawa and S. Funahashi and S. Tomiyoshi",

year = "1997",

month = jul,

doi = "10.1016/S0921-4526(97)00146-4",

language = "English",

volume = "237-238",

pages = "465--466",

journal = "Physica B: Condensed Matter",

issn = "0921-4526",

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T1 - Ferromagnetic-antiferromagnetic transition of itinerant electron magnets Mn3-xFexSi

AU - Miki, H.

AU - Ohoyama, K.

AU - Onodera, H.

AU - Yamauchi, H.

AU - Yamaguchi, Y.

AU - Nojiri, H.

AU - Motokawa, M.

AU - Funahashi, S.

AU - Tomiyoshi, S.

PY - 1997/7

Y1 - 1997/7

N2 - By combining both neutron diffraction and magnetization measurements the magnetic phase diagram is completed for Mn3-xFexSi system. The antiferromagnetism is realized in x < 1.25, and then ferromagnetism appears in x ≥ 1.25. The Néel temperature increases gradually with increasing x, and the Curie temperature for x > 1.25 seems to continue smoothly from the value of TN. In the low temperature region for x ≥ 1.25, canting ferromagnetism takes place.

AB - By combining both neutron diffraction and magnetization measurements the magnetic phase diagram is completed for Mn3-xFexSi system. The antiferromagnetism is realized in x < 1.25, and then ferromagnetism appears in x ≥ 1.25. The Néel temperature increases gradually with increasing x, and the Curie temperature for x > 1.25 seems to continue smoothly from the value of TN. In the low temperature region for x ≥ 1.25, canting ferromagnetism takes place.

KW - Ferromagnetic-antiferromagnetic transition

KW - Magnetization

KW - MnFeSi

KW - Neutron scattering

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