Vestigial pairing from fluctuating magnetism and triplet superconductivity

Abstract

We study the finite-temperature vestigial superconducting phases of a two-dimensional system of fluctuating spin-triplet pairing and spin magnetism. Denoting the respective primary order parameters by d and N, which are not long-range ordered at finite temperature, the composite fields φdd = d·d and φdN = d·N are spin-rotation invariant and can condense at finite temperature. Using a large-N approach that respects the Mermin-Wagner theorem, we here derive the phase diagram which features two vestigial superconductors: (A) a charge-4e superconductor with φdd≠ 0 and φdN =0 and (B) a charge-2e state with φdN ,φdd≠ 0. We analyze the temperature and coupling-constant dependent properties of these two superconductors using a perturbative approach and a variational Hartree-Fock study. This reveals non-trivial spectra in the superconductors, which result from the fundamental building blocks being distinct from the usual Cooper pairs--in phase (A), the elementary bosons are bound states of four electrons and, in phase (B), of three electrons and a hole. This work complements the previous study [Nat. Commun. 15, 1713 (2024), arXiv:2301.01344], which focused on the properties of phase (B).

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