Competing orders and inter-layer tunnelling in cuprate superconductors: A finite temperature Landau theory
Abstract
We propose a finite temperature Landau theory that describes competing orders and interlayer tunneling in cuprate superconductors as an important extension to a corresponding theory at zero temperature [Nature 428, 53 (2004)], where the superconducting transition temperature Tc is defined in three possible ways as a function of the zero temperature order parameter. For given parameters, our theory determines Tc without any ambiguity. In mono- and double-layer systems we discuss the relation between zero temperature order parameter and the associated transition temperature in the presence of competing orders, and draw a connection to the puzzling experimental fact that the pseudo-gap temperature is much higher than the corresponding energy scale near optimum doping. Applying the theory to multi-layer systems, we calculate the layer-number dependence of Tc. In a reasonable parameter space the result turns out to be in agreement with experiments.
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