Anisotropic fully-gapped superconductivity in quasi-one-dimensional Li0.9Mo6O17

Abstract

Superconductivity in quasi-one-dimensional Li0.9Mo6O17 emerges from an exotic, non-metallic normal state that exhibits signatures of Tomonaga-Luttinger liquid behavior, emergent symmetry and excitonic order. The high upper critical field, Hc2, in Li0.9Mo6O17 suggests that that the favored pairing state is spin-triplet in nature. Here, we report measurements of the magnetic penetration depth down to 0.08\,K (T/Tc 0.04) and the specific heat down to 0.4\,K (T/Tc 0.2), and show that they are consistent with a moderately-coupled, fully-gapped superconducting state with marked gap anisotropy and a minimum ( min 0.4\,kBTc) occurring over a very narrow region in k-space. Combined with knowledge of Hc2, these measurements support the presence of a nodeless and possibly odd-parity spin-triplet superconducting order parameter in Li0.9Mo6O17.