Abnormal Normal State and Pressure-driven Reentrant Superconductivity in the Heavy d-electron Superconductor Rh17S15
Abstract
Superconductivity beyond the conventional Bardeen-Cooper-Schrieffer (BCS) framework often emerges out of a normal state that is accompanied by exotic magnetism and thereby displays many exceptional transport and thermodynamic properties. Here we report that the normal state of the heavy d-electron superconductor Rh17S15 is characterized by a weak ferromagnetism that persists up to room temperature. We show that the broad hump in its resistivity likely results from the Kondo interaction of the conduction electrons with this novel magnetism. By applying pressure, superconductivity is fully suppressed first. In the high-pressure regime, however, we observe a second dome of superconductivity with its maximum Tc greater than the ambient pressure value, highlighting the possible unconventional superconductivity in this heavy d-electron sulfide.
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