摘要
The ambient-pressure superconductivity in La3Ni2O7 thin films via compressive epitaxial strain provides a highly accessible platform for diverse characterization techniques, facilitating the studies of high-temperature superconductivity. Here, we systematically map the phase diagram and reveal the superconducting dome with an electron-hole crossover in compressively strained La3−𝑥Sr𝑥Ni2O7−𝛿 thin films by simultaneously tuning Sr doping and oxygen content. The maximum transition temperature (𝑇𝑐) coincides with an anomalous sign change in the Hall coefficient (𝑅𝐻), reminiscent of electron-doped cuprates, which may signal a Fermi surface reconstruction. Beyond the superconducting dome, a ln1/𝑇 insulating regime and a 𝑇-linear resistivity regime are also resolved, resembling behaviors observed in cuprates and infinite-layer nickelates. This work reveals a dome-shaped relationship between 𝑇𝑐 and 𝑅𝐻 and establishes a key framework for understanding unconventional superconductivity in nickelate systems.
材料
- La3-xSrxNi2O7-δ
方法
关键词
- superconducting dome
- electron hole crossover
- fermi surface reconstruction
- t linear resistivity
- ln(1/t) insulating regime
亮点
- The phase diagram resembles behaviors observed in cuprates and infinite-layer nickelates.
- Establishes a key framework for understanding unconventional superconductivity in nickelate systems.
结论
- Maximum Tc coincides with an anomalous sign change in the Hall coefficient, signaling a Fermi surface reconstruction.
- A dome-shaped relationship between Tc and Hall coefficient is revealed.
主要论断
- A universal superconducting dome is revealed in the Tc vs RH phase space of compressively strained La3−xSrxNi2O7−δ thin films.
- 证据: Abstract: 'Here, we systematically map the phase diagram and reveal the superconducting dome with an electron-hole crossover…',Conclusion: 'a universal superconducting dome emerges'
- The maximum Tc coincides with an anomalous sign change in the Hall coefficient (RH), indicating an electron-hole crossover near optimal doping.
- 证据: Abstract: 'The maximum transition temperature (Tc) coincides with an anomalous sign change in the Hall coefficient (RH)',Text: 'the TH curve roughly extends to the peak of the superconducting dome'
- Beyond the superconducting dome, a ln(1/T) insulating regime and a T-linear resistivity regime are resolved, resembling behaviors in cuprates and infinite-layer nickelates.
- 证据: Abstract: 'Beyond the superconducting dome, a ln1/T insulating regime and a T-linear resistivity regime are also resolved'
研究流程
- sample_growth_and_oxygen_tuning — Systematic control of Sr doping and oxygen content achieved.
- 材料: SrTiO3 capping layer; SrLaAlO4 substrates; La, Sr, Ni sources
- 方法: reactive molecular-beam epitaxy; ozone annealing; in situ vacuum annealing
- 观察: as-grown films insulating; post-annealing metallic and superconducting
- structural_characterization — Film crystallinity remains high across all doping states.
- 材料: thin films on substrates
- 方法: XRD 2θ-ω scans; rocking curves; Scherrer analysis
- 观察: high phase purity maintained; c-axis lattice constant varies within 0.5%
- transport_measurements — Superconducting dome with electron-hole crossover observed.
- 材料: patterned Hall bars
- 方法: resistivity vs temperature; Hall effect measurements
- 观察: superconducting dome; T-linear resistivity above Tc; ln(1/T) insulating behavior; Hall coefficient sign change
- data_analysis_and_modeling — Fermi surface reconstruction likely near optimal doping, analogous to electron-doped cuprates.
- 方法: two-band model; phase diagram construction
- 观察: RH sign change tracks electron-hole crossover; Tc peaks at crossover