Non-BCS behavior of the pairing susceptibility near the onset of superconductivity in a quantum-critical metal

Abstract

We analyze the dynamical pairing susceptibility pp (ωm) at T=0 in a quantum-critical metal, where superconductivity emerges out of a non-Fermi liquid ground state once the pairing interaction exceeds a certain threshold. We obtain pp (ωm) as the ratio of the fully dressed dynamical pairing vertex (ωm) and the bare 0 (ωm) (both infinitesimally small). For superconductivity out of a Fermi liquid, the pairing susceptibility is positive above Tc, diverges at Tc, and becomes negative below it. For superconductivity out of a non-Fermi liquid, the behavior of pp (ωm) is different in two aspects: (i) it diverges at the onset of pairing at T=0 only for a certain subclass of bare 0 (ωm) and remains non-singular for other 0 (ωm), and (ii) below the instability, it becomes a non-unique function of a continuous parameter φ for an arbitrary 0 (ωm). The susceptibility is negative in some range of φ and diverges at the boundary of this range. We argue that this behavior of the susceptibility reflects a multi-critical nature of a superconducting transition in a quantum-critical metal when immediately below the instability an infinite number of superconducting states emerges simultaneously with different amplitudes of the order parameter down to an infinitesimally small one.

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