Giant magnetocaloric effect in Gd2NiMnO6 and Gd2CoMnO6 ferromagnetic insulators
J. Krishna Murthy, K. Devi Chandrasekhar, Sudipta Mahana, D. Topwal,, and A. Venimadhav
TL;DR
This study reports significant magnetocaloric effects in Gd2NiMnO6 and Gd2CoMnO6 ferromagnetic insulators, highlighting their potential for low-temperature magnetic refrigeration due to large entropy changes and absence of hysteresis.
Contribution
It is the first detailed investigation of magnetocaloric properties in these specific double perovskite insulators, demonstrating their promising refrigeration capabilities.
Findings
Maximum entropy change of ~35.5 J Kg-1 K-1 in GNMO
Adiabatic temperature change of 10.5 K in GNMO
No magnetic or thermal hysteresis observed
Abstract
We have investigated magnetocaloric effect in double perovskite Gd2NiMnO6 (GNMO) and Gd2CoMnO6 (GCMO) samples by magnetic and heat capacity measurements. Ferromagnetic ordering is observed at ~130 K (~112 K) in GNMO (GCMO), while the Gd exchange interactions seem to dominate for T < 20 K. In GCMO, below 50 K, an antiferromagnetic behaviour due to 3d-4f exchnage interaction is observed. A maximum entropy (-{\Delta}SM) and adiabatic temperature change of ~35.5 J Kg-1 K-1 (~24 J Kg-1 K-1) and 10.5 K (6.5 K) is observed in GNMO (GCMO) for a magnetic field change of 7 T at low temperatures. Absence of magnetic and thermal hysteresis and their insulating nature make them promising for low temperature magnetic refrigeration.
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