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Spin-triplet pair density wave superconductors

Superconductivity 2025-08-19 v2 Strongly Correlated Electrons

Abstract

Recent experiments have shown that the nonzero center of mass momentum pair density wave (PDW) is a widespread phenomenon observed over different superconducting materials. However, concrete theoretical model realizations of the PDW order have remained elusive. Here, we study a one-dimensional model with nearest-neighbor pairing attraction, i.e. a spinful Kitaev chain, under generic spin-orbit couplings such that the spin-rotation symmetry is fully broken. The most general superconducting order parameter is described by a spatial dependent di\mathbf{d}_i-vector. We show that a spin-triplet pair density wave (t-PDW) emerges in the ground state and occupies a large part of the phase diagram. The di\mathbf{d_i}-vector of the t-PDW rotates with a pitch QpdwQ_{\rm pdw} along the chain and spans an ellipsoid. The pure t-PDW is fully gapped and realizes a class-DIII topological superconductor, characterized by two Majorana zero modes localized at each end of the chain and protected by time-reversal symmetry. Our findings reveal unprecedented insights into the exotic pure PDW superconductor and provide a possible explanation for the one-dimensional PDW detected along domain walls in monolayer iron-based superconductor Fe(Te,Se) and potentially realizable using other quantum structures in unconventional superconductors.

Keywords

Cite

@article{arxiv.2408.13886,
  title  = {Spin-triplet pair density wave superconductors},
  author = {Yi Zhang and Ziqiang Wang},
  journal= {arXiv preprint arXiv:2408.13886},
  year   = {2025}
}

Comments

12 pages, 6 figures

R2 v1 2026-06-28T18:23:21.641Z