来源 Zotero
作者 Harrison LaBollita, Soumen Bag, Jesse Kapeghian, Antia S. Botana
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发布日期 2024-10-21
研究范式 理论研究
样品形态 未知

摘要

We employ a density-functional theory plus dynamical mean-field theory framework to investigate the correlated electronic structure of the alternating single-layer–trilayer (1313) polymorph of La3⁢Ni2⁢O7, which becomes superconducting under pressure. At ambient pressure, the single layer is in a Mott-insulating regime and the low-energy physics is dominated by the trilayer block. Under pressure, the gap in the single-layer block closes due to orbital-selective physics, enabling charge transfer into the trilayer block. This change in effective doping of the trilayer block could be linked to the higher 𝑇𝑐 obtained in La3⁢Ni2⁢O7−1313 (∼80 K) when compared to the nominal trilayer La4⁢Ni3⁢O10 compound (∼30 K). We conclude that correlation-driven layer differentiation is crucial in the La3⁢Ni2⁢O7−1313 polymorph and that its low-energy physics aligns closely with the trilayer La4⁢Ni3⁢O10 compound (in spite of the apparent differences in nominal filling) rather than with the conventional bilayer La3⁢Ni2⁢O7.

材料

  • La3Ni2O7-1313 polymorph

方法

  • density functional theory plus dynamical mean-field theory (DFT+DMFT)

关键词

亮点

  • Higher Tc in 1313 polymorph (≈80 K) compared to La4Ni3O10 (≈30 K) linked to charge transfer under pressure.

结论

  • Correlation-driven layer differentiation is crucial; low-energy physics of 1313 polymorph aligns with trilayer La4Ni3O10 rather than conventional bilayer La3Ni2O7.

主要论断

  • At ambient pressure, the single-layer block in La3Ni2O7-1313 is in a Mott-insulating state, and low-energy physics is dominated by the trilayer block.
    • 证据: Abstract: 'At ambient pressure, the single layer is in a Mott-insulating regime and the low-energy physics is dominated by the trilayer block.',Full text: 'the single layer is in a Mott-insulating regime (with gaps in both orbital sectors)' and 'the low-energy physics of La3Ni2O7-1313 is subsequently dominated by the trilayer block'.
  • Under pressure, the single-layer gap closes via orbital-selective physics (dx2-y2 becomes metallic while dz2 remains insulating), enabling charge transfer into the trilayer.
    • 证据: Abstract: 'Under pressure, the gap in the single-layer block closes due to orbital-selective physics, enabling charge transfer into the trilayer block.',Full text: 'We find that the Mott-insulating nature of the single-layer block at ambient pressure transitions into an orbital-selective Mott state with the Ni-dx2-y2 orbital exhibiting metallic behavior' and 'pressure induces a charge redistribution from the single-layer into the trilayer'.
  • The pressurized La3Ni2O7-1313 can be viewed as electron-doped La4Ni3O10, which may explain its higher Tc.
    • 证据: Abstract: 'This change in effective doping of the trilayer block could be linked to the higher Tc obtained in La3Ni2O7-1313 (≈80 K) when compared to the nominal trilayer La4Ni3O10 compound (≈30 K).',Full text: 'pressurized La3Ni2O7-1313 can be thought of as electron-doped La4Ni3O10' and 'The effective electron doping could be connected to the larger superconducting Tc of La3Ni2O7-1313'.

研究流程

  • DFT Calculations — DFT provides the noninteracting starting point for correlated calculations.
    • 材料: La3Ni2O7-1313 polymorph (P4/mmm); La2NiO4 (I4/mmm); La4Ni3O10 (I4/mmm)
    • 方法: All-electron DFT (WIEN2k); Downfolding to Ni-eg Wannier functions
    • 观察: Noninteracting band structure with Ni-eg bands crossing Fermi level; Layer-dependent electronic structure
  • DMFT Simulations — DMFT captures correlation-driven layer differentiation and Mott physics.
    • 材料: Ni-eg correlated space (dz2, dx2-y2)
    • 方法: Single-site dynamical mean-field theory (DMFT); CT-HYB impurity solver; Hubbard-Kanamori interactions (U=5 eV, JH=1 eV)
    • 观察: Self-energies on Matsubara axis; k-resolved spectral functions; Site-resolved orbital occupations and atomic histograms
  • Analysis of Correlated Electronic Structure — Pressure induces orbital-selective Mott transition in the single layer and effective electron doping of the trilayer.
    • 材料: La3Ni2O7-1313 at ambient and 30 GPa
    • 方法: Comparison with constituent materials (La2NiO4, La4Ni3O10); Mass enhancement calculations from self-energies
    • 观察: At ambient: single layer is Mott-insulating; trilayer is correlated metallic with layer dependence; Under pressure: single layer becomes orbital-selective Mott (dx2-y2 metallic, dz2 remains insulating); Charge transfer from SL to TL under pressure