Magnetization reversal behavior and magnetocaloric effect in SmCr0.85Mn0.15O3 chromites
authors Kumar, S; Coondoo, I; Vasundhara, M; Patra, AK; Kholkin, AL; Panwar, N
nationality International
journal JOURNAL OF APPLIED PHYSICS
keywords YCRO3; CAPACITY; GDCRO3; SMCRO3
abstract We have synthesized SmCr0.85Mn0.15O3 (SCMO) chromites through the ceramic route. The compound crystallized into a distorted orthorhombic structure with the Pnma space group, which was confirmed from the Rietveld refinement of x-ray powder diffraction patterns. Neel temperature, noticed at 168K from the temperature variation of magnetisation, smaller than that reported for SmCrO3, indicated the influence of Mn3+ substitution on decreasing the antiferromagnetic ordering. A phenomenon of magnetization reversal was observed in the SCMO compound. At low magnetic fields, i.e., 500 Oe, a single compensation temperature (defined as the temperature where magnetization became zero) around 106K was observed in the field cooled magnetization curve. However, with the application of higher magnetic fields, i.e., under an applied field of 1000 Oe, a second compensation temperature was noticed around 8K. With a further increase in the magnetic field, the magnetization remained positive in both field cooled and zero field cooled protocols. A normal magnetocaloric effect was observed through an indirect method of field dependence of magnetisation measured in the temperature range of 2-152 K. The magnetic entropy change (-Delta S) of similar to 11.36 J kg(-1) K-1 along with the relative cooling power (RCP) of similar to 175.89 J kg(-1) was obtained in the temperature range of 10-20K for an applied field of 90 kOe, and their values at 50 kOe applied field were, respectively, almost twenty and forty times larger in magnitude in comparison to those for the SmCrO3 compound. The relatively large values of Delta S and RCP make the studied compound a potential candidate for magnetic refrigeration applications at low temperatures. Published by AIP Publishing.
publisher AMER INST PHYSICS
issn 0021-8979
isbn 1089-7550
year published 2017
volume 121
issue 4
digital object identifier (doi) 10.1063/1.4974737
web of science category Physics, Applied
subject category Physics
unique article identifier WOS:000393480100013
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