Feng Ran, Pan Chen, Dingyi Li, Peiyu Xiong, Zixin Fan, Haoming Ling, Yan Liang, Jiandi Zhang
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引用次数: 0
摘要
探索铜氧化物的维度效应对于理解高温超导的本质非常重要。通过使用氧化物分子束外延技术进行原子逐层生长,我们证明了 La2-x Sr x CuO4(x = 0.15)薄膜在厚度为 2 个单元格时仍具有超导性,但在 4 个单元格及以上时会迅速达到最高超导转变温度。通过拟合临界磁场(μ 0 H c2),我们发现薄膜超导性的各向异性随着薄膜厚度的减小而增加,这表明薄膜的超导性逐渐从弱三维特性演变为二维特性。这些结果有助于我们更深入地了解高温超导的维度性质。
Ultrathin Limit on the Anisotropic Superconductivity of Single-Layered Cuprate Films
Exploring dimensionality effects on cuprates is important for understanding the nature of high-temperature superconductivity. By atomically layer-by-layer growth with oxide molecular beam epitaxy, we demonstrate that La2-x
Sr
x
CuO4 (x = 0.15) thin films remain superconducting down to 2 unit cells of thickness but quickly reach the maximum superconducting transition temperature at and above 4 unit cells. By fitting the critical magnetic field (μ
0
H
c2), we show that the anisotropy of the film's superconductivity increases with decreasing film thickness, indicating that the superconductivity of the film gradually evolves from weak three- to two-dimensional character. These results help to gain more insight into the nature of high-temperature superconductivity with dimensionality.
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