Low temperature electrical transport in Ag substituted LaMnO3 polycrystalline pellets prepared by a pyrophoric method

A detailed investigation of the electrical resistivity of a series of monovalent (Ag) doped polycrystalline La_1−xAg_xMnO₃ pellets with x ranging from 0.05 to 0.30 and measured over the temperature range between 10 and 350 K is reported. La_1−xAg_xMnO₃ compounds have been prepared by a novel pyrophoric technique. XRD analysis of our samples indicates single phasic nature for samples with Ag content ≤0.15, while samples with higher Ag content (x≥0.2) show presence of both magnetic perovskite and non-magnetic Ag phases. A sharp insulator-metal transition with T_MI close to room temperature arising out of the paramagnetic to ferromagnetic transition, and a large magneto-resistance (MR=∼16%) near T_MI has been observed for all the Ag doped samples. Between T_C(T_p1) and 350 K, all the samples show activated conduction following the Emin-Holstein theory of adiabatic small polaron hopping, while at lower temperatures, in the ferromagnetic regime resistivity appears to be governed by various electron scattering processes. Between 20 and 50 K, a distinct minimum for both H=0 and has been observed, which is explained in terms of inelastic scattering and electron-electron interactions.