Strong bilayer coupling induced by the symmetry breaking in the monoclinic phase of BiS2-based superconductors

Abstract

We perform first-principles band structure calculations for the tetragonal and monoclinic structures of LaO0.5F0.5BiS2. We find that the Bi 6px,y bands on two BiS2 layers exhibit a sizable splitting at the X = (π, 0, 0) and several other k-points for the monoclinic structure. We show that this feature originates from the inter-BiS2 layer coupling strongly enhanced by the symmetry breaking of the crystal structure. The Fermi surface also shows a large splitting and becomes anisotropic with respect to the kx and ky directions in the monoclinic structure, whereas it remains almost flat with respect to the kz direction.