TY - JOUR
T1 - Twists and turns of superconductivity from a repulsive dynamical interaction
AU - Pimenov, Dimitri
AU - Chubukov, Andrey V.
N1 - Publisher Copyright:
© 2022 Elsevier Inc.
PY - 2022/12
Y1 - 2022/12
N2 - We review recent theoretical progress in understanding spatially uniform s-wave superconductivity which arises from a fermion–fermion interaction, which is repulsive on the Matsubara axis, where it is real, but does depend on the transferred frequency. Such a situation holds, e.g., for systems with a screened Coulomb and retarded electron–phonon interaction. We show that despite repulsion, superconductivity is possible in a certain range of system parameters. However, at T=0 the gap function on the Matsubara axis, Δ(ωm), must pass through zero and change sign at least once. These zeros of Δ(ωm) have a topological interpretation in terms of dynamical vortices, and their presence imposes a constraint on the variation of the phase of the gap function along the real frequency axis, which can potentially be extracted from ARPES and other measurements. We discuss how superconductivity vanishes when the repulsion becomes too strong, and obtain a critical line which terminates at T=0 at a quantum-critical point for superconductivity. We show that the behavior of the gap function near this point is highly non-trivial. In particular, an infinitesimally small Δ(ωm) contains a singular δ-function piece ωmδ(ωm). We argue that near the critical point superconductivity may be a mixed state with even-frequency and odd-frequency gap components.
AB - We review recent theoretical progress in understanding spatially uniform s-wave superconductivity which arises from a fermion–fermion interaction, which is repulsive on the Matsubara axis, where it is real, but does depend on the transferred frequency. Such a situation holds, e.g., for systems with a screened Coulomb and retarded electron–phonon interaction. We show that despite repulsion, superconductivity is possible in a certain range of system parameters. However, at T=0 the gap function on the Matsubara axis, Δ(ωm), must pass through zero and change sign at least once. These zeros of Δ(ωm) have a topological interpretation in terms of dynamical vortices, and their presence imposes a constraint on the variation of the phase of the gap function along the real frequency axis, which can potentially be extracted from ARPES and other measurements. We discuss how superconductivity vanishes when the repulsion becomes too strong, and obtain a critical line which terminates at T=0 at a quantum-critical point for superconductivity. We show that the behavior of the gap function near this point is highly non-trivial. In particular, an infinitesimally small Δ(ωm) contains a singular δ-function piece ωmδ(ωm). We argue that near the critical point superconductivity may be a mixed state with even-frequency and odd-frequency gap components.
KW - Dynamical superconductivity
KW - Dynamical vortices
KW - Repulsive interactions
KW - Vortex-unbinding transition
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U2 - 10.1016/j.aop.2022.169049
DO - 10.1016/j.aop.2022.169049
M3 - Article
AN - SCOPUS:85136301463
SN - 0003-4916
VL - 447
JO - Annals of Physics
JF - Annals of Physics
M1 - 169049
ER -