Magnetocaloric properties of an inhomogeneous magnetic thin film of 7.6 nm La0.7Sr0.3MnO3 grown on SrTiO3.

Abstract

Magnetocaloric properties of an inhomogeneous magnetic system of a 7.6 nm La0.7Sr0.3MnO3 consisting of superparamagnetic (SPM) with blocking temperature ( TB = 240 K) and ferromagnetic (FM) phases ( TC = 290 K) is studied by dc magnetization measurements. Isothermal magnetization versus applied magnetic field is carried out from 100 K to 320 K in magnetic fields up to 4 kOe to determine changes in the magnetic entropy (- SM) and the relative cooling power (RCP). Due to the co-existence of SPM and FM phases, there are two peaks in the temperature dependence of- SM in different applied magnetic fields from 1.3 kOe to 4 kOe. The peaks are at 220 K and 270 K which are close TB and TC of the film. The highest RCP occurs at 270 K (which is in TB < T < TC) in H = 4 kOe with the value of 0.19 (J/kg K). The - SM vs T data are fit to the exponent power law, - SM=a Hn where it shows good fits for the whole measured temperature range. This analysis reveals a deviation of n from n = 2/3 which is likely due to the presence of SPM spin clusters in the dead layer for T < TC. Results show that the thin film of La0.7Sr0.3MnO3 can be a good candidate for magnetic refrigeration devices with multiple RCP peaks in low and high temperatures.