Symmetry change of d-wave superconductivity in -type organic superconductors

Abstract

Magnetic-field-angle-resolved heat capacity of dimer-Mott organic superconductors -(BEDT-TTF)2X is reported. Temperature and field dependence of heat capacity indicates that the superconductivity has line nodes on the Fermi surface, which is a typical feature of d-wave superconductivity. In-plane field-angle dependence exhibits fourfold oscillations as well as twofold oscillations due to anisotropy of superconducting gap functions. From analyses of the fourfold term, the gap symmetry is determined as dx2-y2+s for X=Cu[N(CN)2]Br and dxy for X=Ag(CN)2H2O. We suggest that the symmetry difference comes from the competition of dxy and dx2-y2 antiferromagnetic fluctuations depending on lattice geometry.