Role of spin-glass phase for magnetoresistance enhancement in nickel substituted lanthanum calcium manganite

Abstract

Effect of Ni substitution in lanthanum calcium manganite (LCMO) has been investigated for change in magnetoresistance (MR). Scanning electron microscopy images revealed decrease in grain size from 3.72µm to 0.55µm by Ni substitution. Maximum increase in MR has been found 28% at low temperature (100K) for x=0.10, Ni substitution at Mn site. Metal insulator transition temperature has been decreased from 253.2K for x=0.0–90K for x=0.10. Above x=0.10, Ni substitution no metal-insulator transition temperature appeared due to the presence of porosity in the samples. Ni substitution lowered the magnetic transition temperature from 255K for x=0.0–125K for x=0.25. Lowering of irreversible temperature (Tirr) from 250K for x=0.0–135.4K for x=0.20 has been obtained by zero field cooled (ZFC) and field cooled (FC) measurements confirm reduction of ferromagnetic clusters and spin-glass phase like behavior due to Ni presence. The spin-glass phase presence allows spin-polarized tunneling even at low magnetic field, which ultimately results in enhancement of MR at low temperature. Core level X-ray photoelectron spectroscopy measurements confirm Ni2+ charge state of Ni ions and increase in Mn4+/Mn3+ ratio with increasing Ni content. Increase in resistivity and weakening of ferromagnetism with Ni substitution at Mn site has been observed due to the reduction in grain size and dilution of double exchange interaction.