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Observation of Spin-Momentum-Layer Locking in a Centrosymmetric Crystal

Ke Zhang, Shixuan Zhao, Zhanyang Hao, Shiv Kumar, Eike F. Schwier, Yingjie Zhang, Hongyi Sun, Yuan Wang, Yu‐Jie Hao, Xiao‐Ming Ma, Cai Liu, Le Wang, Xiaoxiao Wang, K. Miyamoto, Taichi Okuda, Chang Liu, Jia‐Wei Mei, K. Shimada, Kai Chen, Qihang Liu

2021Physical Review Letters26 citationsDOI

Abstract

The spin polarization in nonmagnetic materials is conventionally attributed to the outcome of spin-orbit coupling when the global inversion symmetry is broken. The recently discovered hidden spin polarization indicates that a specific atomic site asymmetry could also induce measurable spin polarization, leading to a paradigm shift in research on centrosymmetric crystals for potential spintronic applications. Here, combining spin- and angle-resolved photoemission spectroscopy and theoretical calculations, we report distinct spin-momentum-layer locking phenomena in a centrosymmetric, layered material, BiOI. The measured spin is highly polarized along the Brillouin zone boundary, while the same effect almost vanishes around the zone center due to its nonsymmorphic crystal structure. Our work demonstrates the existence of momentum-dependent hidden spin polarization and uncovers the microscopic mechanism of spin, momentum, and layer locking to each other, thus shedding light on the design metrics for future spintronic materials.

Topics & Concepts

Crystal (programming language)Spin (aerodynamics)Momentum (technical analysis)Layer (electronics)Condensed matter physicsPhysicsMaterials scienceNanotechnologyComputer scienceEconomicsThermodynamicsFinanceProgramming languageAdvanced NMR Techniques and ApplicationsPhysics of Superconductivity and MagnetismAtomic and Subatomic Physics Research
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