Magnetic, thermoelectric properties and magnetocaloric effect of Pr0.7Ba0.3MnO3 perovskite: experimental, DFT calculation and Monte Carlo simulations

The magnetic, electronic, structural, thermoelectric properties and magnetocaloric effect of Pr0.75Ba0.25MnO3 perovskite using, experimental, DFT calculation and Monte Carlo simulations were investigated. The ground state has half-metallic character. Our calculations also show that the Pr0.75Ba0.25MnO3 has a ferromagnetic behavior. Pr0.75Ba0.25MnO3 exhibits p-type behavior with dominant holes as the primary carriers, as indicated by its thermoelectric properties. This system exhibits a ferromagnetic–Paramagnetic transition. We have successfully obtained several properties, including magnetization, specific heat, variation of specific heat, magnetic entropy changes, relative cooling power, and the magnetic hysteresis cycle. For a magnetic field change of 5 T, the maximum value of the magnetic entropy change (∣ΔSmax∣) was approximately 12 J/kg.K, while the relative cooling power (RCP) reached 126 J/kg. The promising potential of the present system for magnetic refrigeration is evident due to its relatively large values of ∣ΔSmax∣ and RCP. Finally, the thermoelectric properties were given.