来源 自动抓取
作者 Xiaoyang Chen, Wenliang Zhang, Fei Peng, Ting Cui, Guangdi Zhou, Zezhong Li, Jaewon Choi, Lizhi Xu, Yiu-Fung Chiu, Stefano Agrestini, Sahil Tippireddy, Haoliang Huang, Heng Wang, Xianfeng Wu, Peng Li, Jin-Feng Jia, Mirian Garcia-Fernandez, Yi Lu, Er-Jia Guo, Qi-Kun Xue, Zhuoyu Chen, Donglai Feng, Ke-Jin Zhou
相关度评分 5.645
主分类 本批次暂无数据。
发布日期 本批次暂无数据。
研究范式 实验研究
样品形态 薄膜

摘要

该研究利用X射线吸收谱和共振非弹性X射线散射,独立调控(La,Pr)3Ni2O7-δ薄膜的应变和氧含量,追踪从非超导母相到超导相的微观演化。研究发现,两种调控方式均导致氧2p2轨道与镍3d22轨道退局域化:氧K边吸收谱中“上哈伯德”峰向空穴峰的谱权重转移,伴随镍L边吸收谱和dd轨道激发展宽与减弱。同时,长程自旋密度波(SDW)序的强度和关联长度被显著抑制,表明其与超导直接竞争;而短程磁振子虽被阻尼,但带宽保持不变。这表明,在SDW序熔化过程中,氧2p2和镍3d22轨道的退局域化以及短程磁振子的鲁棒性是实现超导的先决条件,为理论模型提供约束,并为设计镍基超导体指明了轨道选择性的途径。

材料

方法

关键词

亮点

  • Two independent tuning knobs (strain and oxygen content) produce the same electronic evolution, establishing orbital delocalization as a key prerequisite.
  • The study provides spectroscopic constraints for theoretical models and an orbital-selective roadmap for designing nickelate superconductors.

结论

  • Both compressive strain and oxygenation drive delocalization of O 2p_z and Ni 3d_z2 orbitals, evidenced by spectral weight transfer and broadening of excitations.
  • Long-range SDW order is suppressed in intensity and correlation length, showing direct competition with superconductivity.
  • Short-range magnons become damped but retain bandwidth, indicating robust short-range magnetic fluctuations.

主要论断

  • Both compressive strain and oxygenation drive delocalization of O 2p_z and Ni 3d_z2 orbitals, evidenced by spectral weight transfer from upper Hubbard peak to hole peak in O K-edge XAS and broadening of Ni L-edge XAS and dd excitations.
    • 证据: The results demonstrate that both tuning methods induce delocalization of the oxygen 2p_z and nickel 3d_z2 orbitals, as evidenced by spectral weight transfer from the 'upper Hubbard' peak to the hole peak in the O K-edge absorption spectra, accompanied by broadening and weakening of the Ni L-edge absorption spectra and dd excitations.
  • Concurrently, the intensity and correlation length of the long-range spin density wave (SDW) order are significantly suppressed, indicating direct competition with superconductivity.
    • 证据: Concurrently, the intensity and correlation length of the long-range spin density wave (SDW) order are significantly suppressed, indicating direct competition with superconductivity
  • Short-range magnons are damped but their bandwidth remains unchanged, suggesting that robust short-range magnons upon melting of SDW order are prerequisites for superconductivity.
    • 证据: short-range magnons are damped, their bandwidth remains unchanged. This suggests that the delocalization of oxygen 2p_z and nickel 3d_z2 orbitals, along with the robustness of short-range magnons during the melting of the SDW order, are prerequisites for achieving superconductivity

研究流程

  • thin film growth — Two independent tuning routes (strain and oxygen content) effectively drive the system from insulating to superconducting state.
    • 材料: (La,Pr)3Ni2O7-δ thin films
    • 方法: pulsed laser deposition (PLD) for strain-tuning series; gigantic-oxidative atomic-layer-by-layer epitaxy (GAE) for oxygen content-tuning series
    • 观察: samples: non-SC LNO/LAO, non-SC LNO/SLAO1, non-SC LPNO/SLAO2, SC LPNO/SLAO3
  • X-ray absorption spectroscopy (XAS) measurement — Spectral weight transfer and broadening indicate delocalization of O 2p_z and Ni 3d_z2 orbitals.
    • 材料: (La,Pr)3Ni2O7-δ thin films
    • 方法: O K-edge XAS; Ni L-edge XAS
    • 观察: O K-edge: spectral weight transfer from 'Upper Hubbard' peak (B) to hole-like peak (A) in out-of-plane polarization; Ni L-edge: satellite feature broadens and weakens
  • Resonant inelastic X-ray scattering (RIXS) measurement — Short-range magnons persist with unchanged bandwidth, but long-range SDW order is suppressed.
    • 材料: (La,Pr)3Ni2O7-δ thin films
    • 方法: Ni L-edge RIXS
    • 观察: dd excitations become broadened and weakened; magnon damping increases; SDW order intensity and correlation length decrease
  • analysis of magnetic excitations and SDW — Long-range SDW order competes directly with superconductivity and is suppressed upon tuning, while short-range magnetic fluctuations remain robust.
    • 材料: (La,Pr)3Ni2O7-δ thin films
    • 方法: RIXS for magnon dispersion; resonant elastic X-ray scattering for SDW
    • 观察: SDW peak intensity and correlation length decrease with tuning, fully suppressed in SC sample; magnon damping increases but bandwidth unchanged