Evidence of Nodal Line in the Superconducting Gap Symmetry of Noncentrosymmetric ThCoC2

Abstract

The newly discovered noncentrosymmetric superconductor ThCoC2 exhibits numerous unconventional behavior in the field dependent heat capacity data. Here we present the first measurement of the gap symmetry of ThCoC2 by muon spin rotation/relaxation (μSR) measurements. Temperature dependence of the magnetic penetration depth measured using the transverse field μSR measurement reveal the evidence of nodal pairing symmetry. To understand these findings, we carry out the calculations of superconducting pairing eigenvalue and eigenfunction symmetry due to the spin-fluctuation mechanism, by directly implemented the ab-initio band structures. We find that the system possesses a single Fermi surface with considerable three-dimensionality, and hence a strong nesting along the kz-direction. Such a nesting promotes a superconducting pairing with a kz-like symmetry with a prominent nodal line on the kz=π/2 plane. The result agrees well with the experimental data.