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Field-induced Lifshitz transition in the magnetic Weyl semimetal candidate PrAlSi

Lei Wu, Sheng‐Wei Chi, Huakun Zuo, Gang Xu, Lingxiao Zhao, Yongkang Luo, Zengwei Zhu

2023npj Quantum Materials30 citationsDOIOpen Access PDF

Abstract

Abstract Lifshitz transition (LT) refers to an abrupt change in the electronic structure and Fermi surface and is associated to a variety of emergent quantum phenomena. Amongst the LTs observed in known materials, the field-induced LT has been rare and its origin remains elusive. To understand the origin of field-induced LT, it is important to extend the material basis beyond the usual setting of heavy fermion metals. Here, we report on a field-induced LT in PrAlSi, a magnetic Weyl semimetal candidate with localized 4 f electrons, through a study of magnetotransport up to 55 T. The quantum oscillation analysis reveals that across a threshold field B * ≈ 14.5 T the oscillation frequency ( F 1 = 43 T) is replaced by two new frequencies ( F 2 = 62 T and F 3 = 103 T). Strikingly, the LT occurs well below the quantum limit, with obvious temperature-dependent oscillation frequency and field-dependent cyclotron mass. Our work not only enriches the rare examples of field-induced LTs but also paves the way for further investigation of the interplay among topology, magnetism, and electronic correlation.

Topics & Concepts

Quantum oscillationsCondensed matter physicsPhysicsSemimetalMagnetismOscillation (cell signaling)Field (mathematics)Magnetic fieldWeyl semimetalEffective mass (spring–mass system)ElectronMagnetoresistanceFermi surfaceQuantum mechanicsBand gapChemistrySuperconductivityPure mathematicsBiochemistryMathematicsRare-earth and actinide compoundsIron-based superconductors researchPhysics of Superconductivity and Magnetism
Field-induced Lifshitz transition in the magnetic Weyl semimetal candidate PrAlSi | Litcius