Critical nature of the Ni spin state in doped NdNiO<sub>2</sub>
Invited
Abstract
Superconductivity with Tc ~ 15K was recently found in doped NdNiO2 , heralding a new family of potentially high-temperature superconductors. According to the Zaanen-Sawatzky-Allen scheme, the Ni1+O2 layers are expected to be Mott insulators, so hole doping should produce Ni2+ with a total spin S=1, which is rather incompatible with robust superconductivity. Using an impurity calculation with a realistic modeling of the O bands, we show that in fact, the NiO2 layers fall inside a critical region where the large pd hybridization favors a singlet 1A1 hole-doped state like in the cuprate high-temperature superconducting layers CuO2. We also find that the superexchange is about one order of magnitude smaller than in cuprates, thus a magnon “glue” is unlikely to be responsible for this superconductivity.
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Presenters
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Mona Berciu
Quantum Matter Institute, University of British Columbia, Physics, University of British Columbia, University of British Columbia, Stewart Blusson Quantum Matter Institute, University of British Columbia
Authors
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Mona Berciu
Quantum Matter Institute, University of British Columbia, Physics, University of British Columbia, University of British Columbia, Stewart Blusson Quantum Matter Institute, University of British Columbia
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Mi Jiang
University of British Columbia
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George A. Sawatzky
University of British Columbia