Experimental realization of bipolar doping in infinite-layer cuprate thin films reveals persistent antiferromagnetic order coexisting with superconductivity in both regimes, with high Tc in lightly hole-doped samples.
Nodeless superconducting gap and electron-boson coupling in (La,Pr,Sm)₃Ni₂O₇ films
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Position-dependent STM spectra in La2PrNi2O7 are computed from a two-orbital bilayer model, showing orbital-selective coherence peaks and impurity scattering that enable band identification.
A two-component scenario unifies key observations in bilayer nickelate superconductivity, predicting doping-dependent superconducting domes and normal-state behaviors that differ by interlayer coupling strength.
citing papers explorer
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Bipolar-doped superconducting infinite-layer cuprates
Experimental realization of bipolar doping in infinite-layer cuprate thin films reveals persistent antiferromagnetic order coexisting with superconductivity in both regimes, with high Tc in lightly hole-doped samples.
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Electronic theory for scanning tunneling microscopy spectra in bilayer nickelate thin films
Position-dependent STM spectra in La2PrNi2O7 are computed from a two-orbital bilayer model, showing orbital-selective coherence peaks and impurity scattering that enable band identification.
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A unified theory of thin film and bulk bilayer nickelates
A two-component scenario unifies key observations in bilayer nickelate superconductivity, predicting doping-dependent superconducting domes and normal-state behaviors that differ by interlayer coupling strength.