Evidence for nodal superconductivity in a layered compound Ta4Pd3Te16

Abstract

We report an investigation of the London penetration depth λ(T) on single crystals of the layered superconductor Ta4Pd3Te16, where the crystal structure has quasi-one-dimensional characteristics. A linear temperature dependence of λ(T) is observed for T Tc, in contrast to the exponential decay of fully gapped superconductors. This indicates the existence of line nodes in the superconducting energy gap. A detailed analysis shows that the normalized superfluid density s(T), which is converted from λ(T), can be well described by a multigap scenario, with nodes in one of the superconducting gaps, providing clear evidence for nodal superconductivity in Ta4Pd3Te16.