M
M.I. Bartashevich
Researcher at Ural State University
Publications - 27
Citations - 294
M.I. Bartashevich is an academic researcher from Ural State University. The author has contributed to research in topics: Magnetization & Magnetic anisotropy. The author has an hindex of 11, co-authored 27 publications receiving 282 citations.
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Magnetic and magnetoelastic properties of DyFe11Ti single crystals
TL;DR: In this article, the magnetic properties and thermal expansion of DyFe11Ti were investigated in the temperature range 4.2-800 K. The magnetic ordering and spin reorientation are accompanied by large magnetostrictive deformations.
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Volume magnetostriction at the AF–FRI metamagnetic transition in the itinerant-electron system Mn2−xTxSb (T=Co, Cr)
TL;DR: Mn2Sb is a ferrimagnet, and substitution of Co or Cr for Mn above the critical concentration results in the appearance of a spontaneous first-order magnetic phase transition from ferrimagnetic (FRI) to antiferromagnetic (AF) with decreasing temperature below Tt.
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Ferromagnetism in the UCo1-xRuxAl quasiternary intermetallics
A.V. Andreev,Ladislav Havela,V. Sechovsk,M.I. Bartashevich,Josef Šebek,R.V. Dremov,I.K Kozlovskaya +6 more
TL;DR: In this paper, a large deviation from linearity is observed in the concentration dependence of lattice parameters, positive for a and negative for c, whereas the unitcell volume V obeys Vegard's law satisfactorily.
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Magnetic phase transitions in NdCu2
TL;DR: The magnetic phase diagram of the NdCu 2 antiferromagnet was established using magnetization and magnetoresistivity measurements on a single crystal as mentioned in this paper, and the magnetization isotherms in the paramagnetic state just above the Neel temperature (T N = 6.3K) were described through an effective spin S=½ Hamiltonian.
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High-field magnetization and magnetic structure of Tb3Co
N. V. Baranov,N. V. Baranov,A. F. Gubkin,A. P. Vokhmyanin,A. N. Pirogov,Andrey Podlesnyak,Lukas Keller,N V Mushnikov,M.I. Bartashevich +8 more
TL;DR: In this article, it has been shown that the modulated antiferromagnetic structure which exists in Tb3Co below 82 K transforms to the incommensurate magnetic structure with a strong ferromagnetic component along the c-axis with further cooling below the critical temperature Tt≈72 K.