A. P. Kamantsev, A. A. Amirov, Yu. S. Koshkid’ko, C. Salazar Mejía, A. V. Mashirov, A. M. Aliev, V. V. Koledov, V. G. Shavrov, “Magnetocaloric effect in alloy Fe$_{49}$Rh$_{51}$ in pulsed magnetic fields up to 50 T”, Fizika Tverdogo Tela, 2020, Volume 62, Issue 1,Pages 117

This article is cited in 23 papers

Magnetism

Magnetocaloric effect in alloy Fe$_{49}$Rh$_{51}$ in pulsed magnetic fields up to 50 T

A. P. Kamantsev^ab, A. A. Amirov^bc, Yu. S. Koshkid’ko^ad, C. Salazar Mejía^e, A. V. Mashirov^a, A. M. Aliev^c, V. V. Koledov^a, V. G. Shavrov^a

^a Kotel'nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow
^b Laboratory of Novel Magnetic Materials, Institute of Physics, Mathematics and Information Technology, Immanuel Kant Baltic Federal University, 236016, Kaliningrad, Russia
^c Daghestan Institute of Physics after Amirkhanov, Makhachkala, Russia
^d Institute of Low Temperature and Structure Research of PAS, 50-422 Wroclaw, Poland
^e Dresden High Magnetic Field Laboratory, Helmholtz-Zentrum Dresden-Rossendorf, 01328 Dresden, Germany

Abstract: Magnetocaloric effect (MCE) in pulsed magnetic fields up to 50 T was directly studied in alloy Fe$_{49}$Rh$_{51}$. An inverse MCE $\Delta T\approx$ - 8 K is observed at different initial temperatures around the metamagnetic phase transition upon field rising to 20 T; further growth of the field to 50 T leads to a decrease in the absolute adiabatic temperature change by nearly 1 K, which is due to the direct MCE and proves that the whole sample undergoes a transition into the ferromagnetic phase. Upon the field decrease, the maximal absolute value of the adiabatic temperature change of $|\Delta T|$ = 9.8 K was revealed at 6 T when the initial temperature is 310 K.

Keywords: magnetocaloric effect, Fe-Rh alloys, pulsed magnetic fields.

Received: 27.05.2019
Revised: 13.06.2019
Accepted: 15.07.2019

DOI: 10.21883/FTT.2020.01.48747.492