Quantum-critical pairing with varying exponents

Abstract

We analyse the onset temperature Tp for the pairing in cuprate superconductors at small doping, when tendency towards antiferromagnetism is strong. We consider the model of Moon and Sachdev (MS), which assumes that electron and hole pockets survive in a paramagnetic phase. Within this model, the pairing between fermions is mediated by a gauge boson, whose propagator remains massless in a paramagnet. We relate the MS model to a generic γ-model of quantum-critical pairing with the pairing kernel λ () 1/γ. We show that, over some range of parameters, the MS model is equivalent to the γ-model with γ =1/3 (λ () -1/3). We find, however, that the parameter range where this analogy works is bounded on both ends. At larger deviations from a magnetic phase, the MS model becomes equivalent to the γ-model with varying γ >1/3, whose value depends on the distance to a magnetic transition and approaches γ =1 deep in a paramagnetic phase. Very near the transition, the MS model becomes equivalent to the γ-model with varying γ <1/3. Right at the magnetic QCP, the MS model is equivalent to the γ-model with γ =0+ (λ () ), which is the model for color superconductivity. Using this analogy, we verified the formula for Tc derived for color superconductivity.