Saturation of resistivity and Kohler's rule in Ni-doped La1.85Sr0.15CuO4 cuprate

Abstract

We present the results of electrical transport measurements of La1.85Sr0.15Cu1-yNiyO4 thin single-crystal films at magnetic fields up to 9 T. Adding Ni impurity with strong Coulomb scattering potential to slightly underdoped cuprate makes the signs of resistivity saturation at sat visible in the measurement temperature window up to 350 K. Employing the parallel-resistor formalism reveals that sat is consistent with classical Ioffe-Regel-Mott limit and changes with carrier concentration n as sat 1/n. Thermopower measurements show that Ni tends to localize mobile carriers, decreasing their effective concentration as n\!0.15\!-\!y. The classical unmodified Kohler's rule is fulfilled for magnetoresistance in the nonsuperconducting part of the phase diagram when applied to the ideal branch in the parallel-resistor model.