对FeSe中向列畴敏感的超导能隙各向异性

Superconducting gap anisotropy sensitive to nematic domains in FeSe.

作者信息

Hashimoto Takahiro, Ota Yuichi, Yamamoto Haruyoshi Q, Suzuki Yuya, Shimojima Takahiro, Watanabe Shuntaro, Chen Chuangtian, Kasahara Shigeru, Matsuda Yuji, Shibauchi Takasada, Okazaki Kozo, Shin Shik

机构信息

Institute for Solid State Physics (ISSP), University of Tokyo, Kashiwa, Chiba, 277-8581, Japan.

Quantum-Phase Electronics Center (QPEC) and Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo, 113-8656, Japan.

出版信息

Nat Commun. 2018 Jan 18;9(1):282. doi: 10.1038/s41467-017-02739-y.

DOI:10.1038/s41467-017-02739-y

PMID:29348671

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5773685/

Abstract

The structure of the superconducting gap in unconventional superconductors holds a key to understand the momentum-dependent pairing interactions. In superconducting FeSe, there have been controversial results reporting nodal and nodeless gap structures, raising a fundamental issue of pairing mechanisms of iron-based superconductivity. Here, by utilizing polarization-dependent laser-excited angle-resolved photoemission spectroscopy, we report a detailed momentum dependence of the gap in single- and multi-domain regions of orthorhombic FeSe crystals. We confirm that the superconducting gap has a twofold in-plane anisotropy, associated with the nematicity due to orbital ordering. In twinned regions, we clearly find finite gap minima near the vertices of the major axis of the elliptical zone-centered Fermi surface, indicating a nodeless state. In contrast, the single-domain gap drops steeply to zero in a narrow angle range, evidencing for nascent nodes. Such unusual node lifting in multi-domain regions can be explained by the nematicity-induced time-reversal symmetry breaking near the twin boundaries.

摘要

非常规超导体中超导能隙的结构是理解动量依赖配对相互作用的关键。在超导FeSe中，关于节点和无节点能隙结构的报道存在争议，这引发了铁基超导配对机制的一个基本问题。在此，通过利用偏振依赖的激光激发角分辨光电子能谱，我们报道了正交晶系FeSe晶体单畴和多畴区域能隙的详细动量依赖性。我们证实超导能隙具有面内双重各向异性，这与轨道有序导致的向列性有关。在孪晶区域，我们清楚地发现在椭圆区中心费米面主轴顶点附近存在有限的能隙极小值，表明是无节点状态。相比之下，单畴能隙在窄角度范围内急剧降至零，证明存在初生态节点。多畴区域中这种不寻常的节点提升可以用孪晶边界附近向列性诱导的时间反演对称性破缺来解释。

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对FeSe中向列畴敏感的超导能隙各向异性

Superconducting gap anisotropy sensitive to nematic domains in FeSe.

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