On the superconducting gap structure of the miassite Rh17S15: Nodal or nodeless?

Abstract

Recent penetration depth measurement claimed the observation of unconventional superconductivity in the miassite Rh17S15 single crystals, evidenced by the linear-in-temperature penetration depth at low temperatures, thereby arguing for the presence of the lines of node in its superconducting gap structure. Here we measure the thermal conductivity of Rh17S15 single crystals down to 110 mK and up to a field of 8 T ( 0.4Hc2). In marked contrast to the penetration depth measurement, we observe a negligible residual linear term 0/T in zero field, in line with the nodeless gap structure. The field dependence of 0(H)/T shows a profile that is more consistent with either a highly anisotropic gap structure or multiple nodeless gaps with significantly different magnitudes. Moreover, first-principles calculations give two electronic bands with complex shape of Fermi surfaces. These results suggest multigap nodeless superconductivity in this multiband Rh17S15 superconductor.

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