3D quantum Hall effect in a topological nodal-ring semimetal

Guang-Qi Zhao, Shuai Li, W. B. Rui, C. M. Wang, Hai-Zhou Lu, X. C. Xie
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Abstract

A quantized Hall conductance (not conductivity) in three dimensions has been searched for more than 30 years. Here we explore it in 3D topological nodal-ring semimetals, by employing a minimal model describing the essential physics. In particular, the bulk topology can be captured by a momentum-dependent winding number, which confines the drumhead surface states in a specific momentum region. This confinement leads to a surface quantum Hall conductance in a specific energy window in this 3D system. The winding number for the drumhead surface states and Chern number for their quantum Hall effect form a two-fold topological hierarchy. We demonstrate the one-to-one correspondence between the momentum-dependent winding number and wavefunction of the drumhead surface states. More importantly, we stress that breaking chiral symmetry is necessary for the quantum Hall effect of the drumhead surface states. The analytic theory can be verified numerically by the Kubo formula for the Hall conductance. We propose an experimental setup to distinguish the surface and bulk quantum Hall effects. The theory will be useful for ongoing explorations on nodal-ring semimetals.

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拓扑节环半金属中的三维量子霍尔效应
三维的量子化霍尔电导(不是电导率)已经被研究了30多年。在这里,我们探索它在三维拓扑节环半金属,采用最小模型描述基本物理。特别是,本体拓扑可以通过动量相关的绕组数来捕获,这将鼓面表面状态限制在特定的动量区域。这种约束导致了三维系统中特定能量窗口的表面量子霍尔电导。鼓面态的圈数和量子霍尔效应的陈氏数形成了双重拓扑结构。我们证明了鼓面表面状态的动量相关圈数与波函数之间的一一对应关系。更重要的是,我们强调打破手性对称对于鼓面表面态的量子霍尔效应是必要的。解析理论可以用霍尔电导的Kubo公式进行数值验证。我们提出了一个实验装置来区分表面和体量子霍尔效应。该理论将对正在进行的节环半金属的探索有帮助。
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