Journal
INTERMETALLICS
Volume 132, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.intermet.2021.107134
Keywords
FeV intermetallic; Sigma phase; Frank-kasper phase; Mgnetism; Magnetic Phase; Diagram
Categories
Funding
- Faculty of Physics and Applied Computer Science AGH UST
- Institute of Nuclear Physics, Polish Academy of Sciences within Ministry of Science and Higher Education, Warszawa
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The magnetic phase diagram of ?-Fe68V32 has been determined through ZFC/FC magnetization measurements, revealing a re-entrant character of magnetism and the presence of a spin-glass phase. The quantitative analysis of critical exponents using mean-field theory and Kouvel-Fisher approach showed consistency with the Gabay-Toulouse model.
The magnetic phase diagram in the H-T coordinates has been determined for ?-Fe68V32 from the ZFC/FC magnetization measurements. The re-entrant character of magnetism, going from paramagnetic through ferromagnetic to spin-glass (SG) states, has been evidenced. The SG phase is magnetically heterogeneous, because two sub phases can be identified i.e. with the strong (SG-SI) and the weak (SG-WI) irreversibility. The Tirr and Tcros were quantitatively analysed using the mean-field theory and values of related critical exponents ?irr = 1.6 (2) and ?cros = 0.91 (9) were obtained. A qualitative agreement with the Gabay-Toulouse model was reached. The isothermal magnetization measurements point to a soft magnetic behavior of the studied sample. The ? critical exponent was determined with the Kouvel-Fisher approach yielding the value of ? = 1.0 (1) in line with the mean-field theory.
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