Anomalous temperature behavior of resistivity in lightly doped manganites around a metal-insulator phase transition
Abstract
An unusual temperature and concentration behavior of resistivity in La0.7Ca0.3Mn1-xCuxO3 has been observed at slight Cu doping (0≤ x ≤ 0.05). Namely, introduction of copper results in a splitting of the resistivity maximum around a metal-insulator transition temperature T0(x) into two differently evolving peaks. Unlike the original Cu-free maximum which steadily increases with doping, the second (satellite) peak remains virtually unchanged for x<xc, increases for x xc and finally disappears at xm 2xc with xc 0.03. The observed phenomenon is thought to arise from competition between substitution induced strengthening of potential barriers (which hamper the charge hopping between neighboring Mn sites) and weakening of carrier's kinetic energy. The data are well fitted assuming a nonthermal tunneling conductivity theory with randomly distributed hopping sites.
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