Interface-mediated pairing in field effect devices

Abstract

We consider the pairing induced in a strictly 2D electron gas (2DEG) by a proximate insulating film with polarizable localized excitations. Within a model of interacting 2D electrons and localized two-level systems, we calculate the critical temperature $T_c$ as a function of applied voltage and for different materials properties. Assuming that a sufficient carrier density can be induced in a field-gated device, we argue that superconductivity may be observable in such systems. $T_c$ is found to be a nonmonotonic function of both electric field and the excitation energy of the two-level systems.