铁基超导体中有序磁矩引起的平面内电子各向异性

arXiv: Superconductivity Pub Date : 2020-07-24 DOI:10.1103/PHYSREVRESEARCH.2.033140

S.-F. Wu, W.-L. Zhang, V. Thorsmølle, G. Chen, G. Tan, P. Dai, Y. Shi, C. Jin, T. Shibauchi, S. Kasahara, Y. Matsuda, A. Sefat, H. Ding, P. Richard, G. Blumberg

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摘要

我们利用偏振分辨拉曼散射研究了几种铁基超导体(BaFe2As2、EuFe2As2、nafea、LiFeAs、FeSe和LaFeAsO)母化合物的磁弹性耦合。我们观察到XY散射几何中出现ag -对称As声子模式，其强度仅在显示磁有序的化合物的磁结构跃迁下显着增强。我们得出结论，小的晶格各向异性不足以诱导所观察到的声子强度增强所必需的平面内电子极化各向异性，并根据磁矩和磁弹性耦合的各向异性来解释尼尔温度以下的这种增强。我们证明了由于Ag (As)声子模式和B2g类对称电子连续体之间的强耦合而导致的XY散射几何中的法诺线形状。强电子-声子耦合可能与超导性有关。

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In-plane electronic anisotropy resulted from ordered magnetic moment in iron-based superconductors

We used polarization-resolved Raman scattering to study the magneto-elastic coupling in the parent compounds of several families of Fe-based superconductors (BaFe2As2, EuFe2As2, NaFeAs, LiFeAs, FeSe and LaFeAsO). We observe an emergent Ag-symmetry As phonon mode in the XY scattering geometry whose intensity is significantly enhanced below the magneto-structural transition only for compounds showing magnetic ordering. We conclude that the small lattice anisotropy is insufficient to induce the in-plane electronic polarizability anisotropy necessary for the observed phonon intensity enhancement, and interpret this enhancement below the Neel temperature in terms of the anisotropy of the magnetic moment and magneto-elastic coupling. We evidence a Fano line- shape in the XY scattering geometry resulting from a strong coupling between the Ag (As) phonon mode and the B2g symmetry-like electronic continuum. Strong electron-phonon coupling may be relevant to superconductivity.

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arXiv: Superconductivity

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