Topological Nodal Chains and Transverse Transports in Ferromagnetic Centrosymmetric Semimetal FeIn2S4

arXiv - PHYS - Mesoscale and Nanoscale Physics Pub Date : 2024-09-15 DOI:arxiv-2409.09712

Junyan Liu, Yibo Wang, Xuebin Dong, Jinying Yang, Shen Zhang, Meng Lyu, Binbin Wang, Hongxiang Wei, Shouguo Wang, Enke Liu, Baogen Shen

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Abstract

Nodal chain semimetals protected by nonsymmorphic symmetries are distinct from Dirac and Weyl semimetals, featuring unconventional topological surface states and resulting in anomalous magnetotransport properties. Here, we reveal that the ferromagnetic FeIn2S4 is a suitable nodal chain candidate in theory. Centrosymmetric FeIn2S4 with nonsymmorphic symmetries shows half-metallicity and clean band-crossings with hourglass-type dispersion tracing out nodal lines. Owing to glide mirror symmetries, the nontrivial nodal loops form nodal chain, which is associated with the perpendicular glide mirror planes. These nodal chains are robust against spin-orbital interaction, giving rise to the coexistence of drumhead-type surface states and closed surface Fermi arcs. Moreover, the nodal loops protected by nonsymmorphic symmetry contribute to large anomalous Hall conductivity and the anomalous Nernst conductivity. Our results provide a platform to explore the intriguing topological state and transverse transport properties in magnetic system.

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铁磁性中心对称半金属 FeIn2S4 中的拓扑节点链和横向传输

受非非晶对称性保护的节点链半金属不同于狄拉克半金属和韦尔半金属，它们具有非常规的拓扑表面状态，并导致反常的磁传输特性。具有非非晶态对称性的中心对称 FeIn2S4 显示出半金属性和干净的带交叉，并以沙漏型色散追踪出节点线。由于滑动镜对称性，非三维结环形成结环链，结环链与垂直的滑动镜平面相关联。此外，受非非晶对称性保护的节点环有助于提高反常霍尔电导率和反常诺尔电导率。我们的研究结果为探索磁性系统中有趣的拓扑态和反向传输特性提供了一个平台。

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arXiv - PHYS - Mesoscale and Nanoscale Physics

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