Evolution of the Superfluid Density in Infinite-Layer Nickelates
Abstract
Nickelate superconductors provide a valuable new platform for the study of unconventional superconductivity that is complementary to the cuprates. One of the central puzzles about high-temperature superconductors is what factors determine the scale of their superconducting transition temperature (Tc). To address this question for infinite-layer nickelates, we present a systematic mutual inductance study of the superfluid density across the doping-dependent superconducting dome of Nd1-xSrxNiO2. We observe a weak superfluid stiffness that exhibits an approximately square-root correlation with Tc. We also find a strong interplay between Nd magnetism and the superconducting phase, manifested as a substantial low-temperature suppression of superfluid density. These observations highlight the importance of superconducting phase fluctuations in limiting Tc and unexpectedly strong coupling between the Nd 4f moments and the superfluid.
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