Electronic correlations and superconducting instability in La 3 Ni 2 O 7 under high pressure
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Abstract
Motivated by the report of superconductivity in bilayer ${\mathrm{La}}_{3}{\mathrm{Ni}}_{2}{\mathrm{O}}_{7}$ at high pressure, we examine the interacting electrons in this system. First-principles many-body theory is utilized to study the normal-state electronic properties. Below 100 K, a multiorbital non-Fermi-liquid state resulting from a loss of Ni-ligand coherence within a flat-band-dominated low-energy landscape is uncovered. The incoherent low-temperature Fermi surface displays strong mixing between $\mathrm{Ni}\text{\ensuremath{-}}{d}_{{z}^{2}}$ and $\mathrm{Ni}\text{\ensuremath{-}}{d}_{{x}^{2}\ensuremath{-}{y}^{2}}$ orbital character. In a model Hamiltonian picture, spin fluctuations originating mostly…
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4Topics & keywords
Topics
Keywords
- Superconductivity
- Physics
- Condensed matter physics
- Hamiltonian (control theory)
- Order (exchange)
- Energy (signal processing)
- Fermi liquid theory
- Fermi surface
UN Sustainable Development Goals
- Affordable and clean energy
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