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.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.