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Non-centrosymmetric topological phase probed by non-linear Hall effect

Naizhou Wang, Jing‐Yang You, Aifeng Wang, Xiaoyuan Zhou, Zhaowei Zhang, Shen Lai, Yuan-Ping Feng, Hsin Lin, Guoqing Chang, Wei-bo Gao

2023National Science Review17 citationsDOIOpen Access PDF

Abstract

Abstract Non-centrosymmetric topological material has attracted intense attention due to its superior characteristics as compared with the centrosymmetric one, although probing the local quantum geometry in non-centrosymmetric topological material remains challenging. The non-linear Hall (NLH) effect provides an ideal tool to investigate the local quantum geometry. Here, we report a non-centrosymmetric topological phase in ZrTe5, probed by using the NLH effect. The angle-resolved and temperature-dependent NLH measurement reveals the inversion and ab-plane mirror symmetries breaking at <30 K, consistently with our theoretical calculation. Our findings identify a new non-centrosymmetric phase of ZrTe5 and provide a platform to probe and control local quantum geometry via crystal symmetries.

Topics & Concepts

Homogeneous spaceQuantum Hall effectPhysicsPoint reflectionQuantumTopology (electrical circuits)Phase (matter)Condensed matter physicsPlane (geometry)GeometryQuantum mechanicsMathematicsCombinatoricsElectronTopological Materials and PhenomenaGraphene research and applicationsQuantum and electron transport phenomena
Non-centrosymmetric topological phase probed by non-linear Hall effect | Litcius