O. V. Koplak, E. V. Dvoretskaya, D. V. Korolev, R. A. Valeev, V. P. Piskorsky, M. V. Gapanovich, Yu. S. Pogorelets, R. B. Morgunov, “Exchange bias at the ferro-ferrimagnet interface in PrDyCoFeB/<nobr>$\alpha$</nobr>-Fe microwires”, Fizika Tverdogo Tela, 2021, Volume 63, Issue 10,Pages <nobr>1522

This article is cited in 1 paper

Magnetism

Exchange bias at the ferro-ferrimagnet interface in PrDyCoFeB/$\alpha$-Fe microwires

O. V. Koplak^ab, E. V. Dvoretskaya^a, D. V. Korolev^c, R. A. Valeev^c, V. P. Piskorsky^c, M. V. Gapanovich^a, Yu. S. Pogorelets^a, R. B. Morgunov^abc

^a Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, Moscow region, Russia
^b I. M. Sechenov First Moscow State Medical University, Moscow, Russia
^c All-Russian Scientific Research Institute of Aviation Materials, Moscow, Russia

Abstract: The exchange bias 50–70 Oe has been observed in two-components microwires of two types: (i) with an $\alpha$-Fe shell deposited on a nanocrystalline PrDyCoFeB core and (ii) with nanocrystalline Pr-DyCoFeB shell and $\alpha$-Fe core formed spontaneously during melt solidification. In this case, the exchange bias is not observed in microcrystalline microwires consisting mainly of the (PrDy)$_{2}$(CoFe)$_{14}$B phase coated with $\alpha$-Fe. Since the nanocrystalline microwires contain, in addition to this phase, also ferromagnetic Dy(CoFe)$_{2}$ or Dy(CoFe)$_{4}$B phases, the appearance of the exchange bias is explained by the existence of the $\alpha$-Fe interface with these phases.

Keywords: ferromagnetic microwires, magnetic anisotropy, demagnetizing factor, saturation magnetization, interface.

Received: 13.05.2021
Revised: 13.05.2021
Accepted: 13.05.2021

DOI: 10.21883/FTT.2021.10.51399.112