Carrier concentrations in Bi2Sr2-zLazCuO6+δ single crystals and their relation to Hall coefficient and thermopower

Abstract

We measured the thermopower S and the Hall coefficients RH of Bi2Sr2-zLazCuO6+δ (BSLCO) single crystals in a wide doping range, in an effort to identify the actual hole concentrations per Cu, p, in this system. It is found that the "universal" relation between the room-temperature thermopower and Tc does not hold in the BSLCO system. Instead, comparison of the temperature-dependent RH data with other cuprate systems is used as a tool to identify the actual p value. To justify this approach, we compare normalized RH(T) data of BSLCO, La2-xSrxCuO4 (LSCO), YBa2Cu3Oy, and Tl2Ba2CuO6+δ, and demonstrate that the RH(T) data of the LSCO system can be used as a template for the estimation of p. The resulting phase diagram of p vs Tc for BSLCO suggests that Tc is anomalously suppressed in the underdoped samples, becoming zero at around p ~ 0.10, while the optimum Tc is achieved at p ~ 0.16 as expected.

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