摘要
该论文通过互感法系统测量了无限层镍基超导体Nd1-xSrxNiO2在掺杂超导穹顶内的超流密度。研究发现,超流刚度较弱,且与超导转变温度Tc呈近似平方根关系。同时,观察到Nd的4f磁矩与超流之间存在强烈的相互作用,导致低温下超流密度显著被抑制,其效应远超简单的顺磁解释,暗示了磁有序与超导相的耦合。这些结果表明,超导相位涨落在限制Tc中起重要作用,并揭示了稀土磁性离子与超流之间意想不到的强耦合。
材料
方法
- mutual inductance technique
- complex conductance measurement
- Berezinskii-Kosterlitz-Thouless (BKT) analysis
- superfluid density analysis
- penetration depth measurement
关键词
- superfluid density
- superfluid stiffness
- phase fluctuations
- bkt transition
- nd magnetism
- superfluid suppression
- square root scaling
- uemura plot
亮点
- The low-temperature suppression of superfluid density is substantially larger than in cuprates and does not show Curie-Weiss behavior, suggesting magnetic ordering of Nd moments.
- The superfluid stiffness is weak and the correlation between Tc and superfluid density follows a square-root dependence across the dome, similar to cuprates in the low-Tc, low-superfluid-density corner.
结论
- We observe a weak superfluid stiffness that exhibits an approximately square-root correlation with Tc.
- We also find a strong interplay between Nd magnetism and the superconducting phase, manifested as a substantial low-temperature suppression of superfluid density.
- These observations highlight the importance of superconducting phase fluctuations in limiting Tc and unexpectedly strong coupling between the Nd 4f moments and the superfluid.
主要论断
- The superfluid stiffness is weak and exhibits an approximately square-root correlation with Tc across the doping dome.
- 证据: abstract: 'weak superfluid stiffness that exhibits an approximately square-root correlation with Tc',full_text Fig. 3b,c: Tc ∝ (λ0-2)0.43±0.03
- Strong interplay between Nd 4f moments and superfluid causes substantial low-temperature suppression of superfluid density, beyond simple paramagnetic effects.
- 证据: abstract: 'strong interplay between Nd magnetism and the superconducting phase, manifested as a substantial low-temperature suppression of superfluid density',full_text Fig. 1b shows clear suppression below ≈4 K; Fig. 2a shows doping-dependent T(λ_min)
- Superconducting phase fluctuations play an important role in limiting Tc, as T_Θ/Tc approaches unity near the dome edges.
- 证据: abstract: 'importance of superconducting phase fluctuations in limiting Tc',full_text Fig. 2e shows Tc drops rapidly as T_Θ/Tc approaches 1
- The square-root scaling of Tc with superfluid density in nickelates mirrors the behavior in cuprates at low Tc/low superfluid density, suggesting a common origin.
- 证据: full_text Fig. 4 comparison with LSCO and YBCO shows similar scaling,full_text: 'the square-root scaling emerges near the low-Tc, low-superfluid-density corner'
研究流程
- sample_preparation — Samples span the entire doping-dependent dome.
- 材料: Nd1-xSrxNiO2 thin films (x = 0.12 to 0.25); LSAT substrates with STO capping
- 方法: pulsed laser deposition (PLD); topochemical reduction
- 观察: High-quality doping series across the superconducting dome
- mutual_inductance_measurements — Systematic mapping of superfluid density across the dome.
- 材料: Nd1-xSrxNiO2 films
- 方法: two-coil mutual inductance technique; measure complex conductance σ1 - iσ2
- 观察: Superfluid density vs temperature curves; BKT transition identified; Low-temperature suppression of superfluid density
- analysis — Tc is limited by superfluid stiffness and phase fluctuations.
- 材料: mutual inductance data
- 方法: BKT renormalization group fits; quadratic fits to extract λ0-2; power-law scaling analysis
- 观察: λ0-2 ≈ 1-2.5 µm-2; Tc ∝ √λ0-2 scaling; T_Θ/Tc ratio indicates phase fluctuation importance