Saturation of resistivity and Kohler's rule in Ni-doped La$_{1.85}$Sr$_{0.15}$CuO$_{4}$ cuprate
arXiv:1701.02568 · doi:10.1103/PhysRevB.95.014521
Abstract
We present the results of electrical transport measurements of La$_{1.85}$Sr$_{0.15}$Cu$_{1-y}$Ni$_{y}$O$_{4}$ 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 $Ï_{sat}$ visible in the measurement temperature window up to 350 K. Employing the parallel-resistor formalism reveals that $Ï_{sat}$ is consistent with classical Ioffe-Regel-Mott limit and changes with carrier concentration $n$ as $Ï_{sat}\propto 1/\sqrt{n}$. Thermopower measurements show that Ni tends to localize mobile carriers, decreasing their effective concentration as $n\!\cong0.15\!-\!y$. 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.
6 pages, 4 figures