Abstract
The pairing mechanism in cuprates remains as one of the most challenging issues in condensed matter physics. Recently, superconductivity was discovered in thin films of the infinite-layer nickelate Nd1-xSrxNiO2 (x = 0.12–0.25) which is believed to have the similar 3d9 orbital electrons as that in cuprates. Here we report single-particle tunneling measurements on the superconducting nickelate thin films. We find predominantly two types of tunneling spectra, one shows a V-shape feature which can be fitted well by a d-wave gap function with gap maximum of about 3.9 meV, another one exhibits a full gap of about 2.35 meV. Some spectra demonstrate mixed contributions of these two components. Combining with theoretical calculations, we attribute the d-wave gap to the pairing potential of the {mathrm{Ni - }}3d_{x^2 - y^2} orbital. Several possible reasons are given for explaining the full gap feature. Our results indicate both similarities and distinctions between the newly found Ni-based superconductors and cuprates.
Highlights
The pairing mechanism in cuprates remains as one of the most challenging issues in condensed matter physics
Superconductivity with transition temperatures of about 9–15 K was observed in infinite layer nickelate thin films of Nd1-xSrxNiO2 which may share the similar 3d9 orbital electrons as that in cuprates[1,2]
It was argued that the absence of superconductivity in bulk samples may be induced by the heavy deficiency of Ni, or due to the significant influence of physical properties by the subtle change of the structure and doping level between the bulk and film samples
Summary
The pairing mechanism in cuprates remains as one of the most challenging issues in condensed matter physics. Superconductivity with transition temperatures of about 9–15 K was observed in infinite layer nickelate thin films of Nd1-xSrxNiO2 (within the range x = 0.12–0.25) which may share the similar 3d9 orbital electrons as that in cuprates[1,2]. This discovery has drawn enormous attention[3,4,5,6,7,8,9,10,11,12,13] since it may provide deeper insight about the pairing mechanism of unconventional superconductivity in cuprates. The results expose essential message about the superconducting pairing potential in this newly found superconducting system
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