English

Nematic single-component superconductivity and loop-current order from pair-density wave instability

Superconductivity 2023-04-07 v2

Abstract

We investigate the nematic and loop-current type orders that may arise as vestigial precursor phases in a model with an underlying pair-density wave (PDW) instability. We discuss how such a vestigial phase gives rise to a highly anisotropic stiffness for a coexisting single-component superconductor with low intrinsic stiffness, as is the case for the underdoped cuprate superconductors. Next, focusing on a regime with a mean-field PDW ground state with loop-current and nematic xyxy (B2g_{2g}) order, we find a preemptive transition into a low and high-temperature vestigial phase with loop-current and nematic order corresponding to xyxy (B2g_{2g}) and x2y2x^2-y^2 (B1g_{1g}) symmetry respectively. Near the transition between the two phases, a state of soft nematic order emerges for which we expect that the nematic director is readily pinned away from the high-symmetry directions in the presence of an external field. Results are discussed in relation to findings in the cuprates, especially to the recently inferred highly anisotropic superconducting fluctuations [W{\aa}rdh {\em et al.}, ``Colossal transverse magnetoresistance due to nematic superconducting phase fluctuations in a copper oxide'', arXiv:2203.06769], giving additional evidence for an underlying ubiquitous PDW instability in these materials.

Keywords

Cite

@article{arxiv.2203.08250,
  title  = {Nematic single-component superconductivity and loop-current order from pair-density wave instability},
  author = {Jonatan Wårdh and Mats Granath},
  journal= {arXiv preprint arXiv:2203.08250},
  year   = {2023}
}

Comments

19 pages, 9 figures, and 2 tables

R2 v1 2026-06-24T10:14:52.392Z