Field-induced metal-insulator Field-induced metal-insulator transition in the c-axis resistivity of graphite
arXiv:cond-mat/0204166 · doi:10.1103/PhysRevB.65.241101
Abstract
We show that the resistivity perpendicular $Ï_c$ and parallel $Ï_a$ to the basal planes of different graphite samples show similar magnetic-field-driven metal-insulator-transitions at a field $B_c \sim 0.1 T$ applied parallel to the c-axis. Our results demonstrate the universality of the recently found scaling in $Ï_a$ of graphite and indicate that the metallic-like temperature dependence of $Ï_c$ is directly correlated to that of $Ï_a$. The similar magnetoresistance found for both resistivities, the violation of Kohler's rule and the field-induced transition indicate that the semiclassical transport theory is inadecuate to understand the transport properties of graphite.
4 figures, submitted to PRB