Theoretical analysis of Cooper-pair phase fluctuations in underdoped cuprates: a spin-fluctuation exchange study
Abstract
We study Cooper-pair phase fluctuations in cuprate superconductors for a spin fluctuation pairing interaction. Using an electronic theory we calculate in particular for the underdoped cuprate superconductors the superfluid density ns(T), the superconducting transition temperature Tc(x) ns below which phase coherent Cooper-pairs occur, and Tc*(x) where the phase incoherent Cooper-pairs disappear. Also we present results for the penetration depth λ(x,T) and for the weak pseudogap temperature T*(x) at which a gap structure occurs in the spectral density. A Meiner effect is obtained only for T < Tc. We find that phase fluctuations become increasingly important in the underdoped regime and lead to a reduction of Tc in good agreement with the experimental situation.
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