Observation of giant spin-split Fermi-arc with maximal Chern number in the chiral topological semimetal PtGa

Non-symmorphic chiral topological crystals host exotic multifold fermions, and their associated Fermi arcs helically wrap around and expand throughout the Brillouin zone between the high-symmetry center and surface-corner momenta. However, Fermi-arc splitting and realization of the theoretically pro...

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Veröffentlicht in:	arXiv.org 2020-03
Hauptverfasser:	Yao, Mengyu, Manna, Kaustuv, Yang, Qun, Fedorov, Alexander, Voroshnin, Vladimir, Schwarze, B Valentin, Hornung, Jacob, Chattopadhyay, S, Sun, Zhe, Guin, Satya N, Wosnitza, Jochen, Borrmann, Horst, Chandra Shekhar, Kumar, Nitesh, Fink, Jörg, Sun, Yan, Felser, Claudia
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Schlagworte:	Brillouin zones Crystals Fermions Photoelectric emission Physics - Materials Science Physics - Strongly Correlated Electrons Spin-orbit interactions Splitting Topology
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creator	Yao, Mengyu Manna, Kaustuv Yang, Qun Fedorov, Alexander Voroshnin, Vladimir Schwarze, B Valentin Hornung, Jacob Chattopadhyay, S Sun, Zhe Guin, Satya N Wosnitza, Jochen Borrmann, Horst Chandra Shekhar Kumar, Nitesh Fink, Jörg Sun, Yan Felser, Claudia
description	Non-symmorphic chiral topological crystals host exotic multifold fermions, and their associated Fermi arcs helically wrap around and expand throughout the Brillouin zone between the high-symmetry center and surface-corner momenta. However, Fermi-arc splitting and realization of the theoretically proposed maximal Chern number rely heavily on the spin-orbit coupling (SOC) strength. In the present work, we investigate the topological states of a new chiral crystal, PtGa, which has the strongest SOC among all chiral crystals reported to date. With a comprehensive investigation using high-resolution angle-resolved photoemission spectroscopy, quantum-oscillation measurements, and state-of-the-art ab initio calculations, we report a giant SOC-induced splitting of both Fermi arcs and bulk states. Consequently, this study experimentally confirms the realization of a maximal Chern number equal to \|4\| for the first time in multifold fermionic systems, thereby providing a platform to observe large-quantized photogalvanic currents in optical experiments.
doi_str_mv	10.48550/arxiv.2003.07712
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However, Fermi-arc splitting and realization of the theoretically proposed maximal Chern number rely heavily on the spin-orbit coupling (SOC) strength. In the present work, we investigate the topological states of a new chiral crystal, PtGa, which has the strongest SOC among all chiral crystals reported to date. With a comprehensive investigation using high-resolution angle-resolved photoemission spectroscopy, quantum-oscillation measurements, and state-of-the-art ab initio calculations, we report a giant SOC-induced splitting of both Fermi arcs and bulk states. 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However, Fermi-arc splitting and realization of the theoretically proposed maximal Chern number rely heavily on the spin-orbit coupling (SOC) strength. In the present work, we investigate the topological states of a new chiral crystal, PtGa, which has the strongest SOC among all chiral crystals reported to date. With a comprehensive investigation using high-resolution angle-resolved photoemission spectroscopy, quantum-oscillation measurements, and state-of-the-art ab initio calculations, we report a giant SOC-induced splitting of both Fermi arcs and bulk states. 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subjects	Brillouin zones Crystals Fermions Photoelectric emission Physics - Materials Science Physics - Strongly Correlated Electrons Spin-orbit interactions Splitting Topology
title	Observation of giant spin-split Fermi-arc with maximal Chern number in the chiral topological semimetal PtGa
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