Charge/quadrupole fluctuations and gap anisotropy in BiS2-based superconductors

Abstract

Recent angle-resolved spectroscopy in BiS2-based superconductors has indicated that the superconducting gap amplitude possesses remarkable anisotropy and/or a sign change on a small Fermi pocket around X point. It implies a possibility of an unconventional pairing state. Here we study the gap anisotropy in superconductivity mediated by inherent charge/quadrupole fluctuations in an extended Hubbard model, which includes inter-site interaction between Bi and S atoms. The first-principles downfolded band structure is composed of Bi 6px/py and S 3px/py orbitals on a BiS2 single layer. Evaluating the linearized gap equation, we find that the ferroic charge/quadrupole fluctuation driven by the inter-site interaction leads to a fully-gapped dx2-y2-wave pairing state, in which the gap amplitude has sizable anisotropy on the Fermi surface.