Universal scaling of c-axis dc conductivity for the underdoped hightemperature cuprate superconductors

Abstract

Coexistence of the "metallic-like" in-plane and the "semiconducting-like" out-of-plane (caxis) dc conductivities (σc), generating a huge anisotropy in the underdoped hightemperature cuprate superconductors (HTCS), defies our current understanding of metal. In this report we present an intrinsic doping dependence of σc. We find that the σc for the underdoped HTCS is universally scaled to the σc at the optimal doped-hole concentration. The universal scaling behavior suggests that there are three intrinsic processes contribute to σc: (i) the doping-dependent-activated gap; (ii) the exponential doping dependences and (iii) the tunneling between adjacent CuO2 block layers. They are the essential underlying characteristics of the c-axis transport for all HTCSs.