Reshaping the anomalous Hall response in tilted 3D system with disorder correction
Reshaping the anomalous Hall response in tilted 3D system with disorder correction
The anomalous Hall conductivity in the nodal line semimetals (NLSMs) due to the presence of a symmetry-protected nodal ring adds complexity in the investigation of their transport properties. By employing quantum kinetic theory and considering the weak disorder limit, we analyze the intraband and interband parts of anomalous Hall conductivity in the tilted 3D Dirac NLSMs. Our findings reveal that the net anomalous response is mainly contributed by the interband part. Further, the latter part gives non zero results by breaking inversion symmetry via tilt. We observe that the competition between the tilt and the chemical potential emerges kinks at distinct characteristic frequencies in the intrinsic interband part of the anomalous conductivity. On the other hand, the disorder driven interband component of the conductivity exhibits a prominent peak at low chemical potential, followed by a sign change. Notably, the disorder or extrinsic contribution to the response dominates over the intrinsic interband contribution, making it a crucial factor for the study of the overall response of a three-dimensional system.
Vivek Pandey、Pankaj Bhalla
电工基础理论自然科学理论
Vivek Pandey,Pankaj Bhalla.Reshaping the anomalous Hall response in tilted 3D system with disorder correction[EB/OL].(2025-07-01)[2025-07-24].https://arxiv.org/abs/2507.00744.点此复制
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