A route to high temperature superconductivity in composite systems

Abstract

Apparently, some form of local superconducting pairing persists to temperatures well above the maximum observed Tc in underdoped cuprates, i.e. Tc is suppressed due to the small phase stiffness. With this in mind, we consider the following question -- Given a system with a high pairing scale 0 but with Tc reduced by phase fluctuations, can one design a composite system in which Tc approaches its mean-field value, Tc TMF≈ 0/2\? Here, we study a simple two component model in which a "metallic layer" with 0=0 is coupled by single-particle tunneling to a "pairing layer" with 0 >0 but zero phase stiffness. We show that in the limit that the bandwidth of the metal is much larger than 0, Tc of the composite system can reach the upper limit Tc ≈0/2.