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Lorentz-violating type-II Dirac fermions in transition metal dichalcogenide PtTe2.


ABSTRACT: Topological semimetals have recently attracted extensive research interests as host materials to condensed matter physics counterparts of Dirac and Weyl fermions originally proposed in high energy physics. Although Lorentz invariance is required in high energy physics, it is not necessarily obeyed in condensed matter physics, and thus Lorentz-violating type-II Weyl/Dirac fermions could be realized in topological semimetals. The recent realization of type-II Weyl fermions raises the question whether their spin-degenerate counterpart-type-II Dirac fermions-can be experimentally realized too. Here, we report the experimental evidence of type-II Dirac fermions in bulk stoichiometric PtTe2 single crystal. Angle-resolved photoemission spectroscopy measurements and first-principles calculations reveal a pair of strongly tilted Dirac cones along the ?-A direction, confirming PtTe2 as a type-II Dirac semimetal. Our results provide opportunities for investigating novel quantum phenomena (e.g., anisotropic magneto-transport) and topological phase transition.Whether the spin-degenerate counterpart of Lorentz-violating Weyl fermions, the Dirac fermions, can be realized remains as an open question. Here, Yan et al. report experimental evidence of such type-II Dirac fermions in bulk PtTe2 single crystal with a pair of strongly tilted Dirac cones.

SUBMITTER: Yan M 

PROVIDER: S-EPMC5557853 | biostudies-other | 2017 Aug

REPOSITORIES: biostudies-other

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Lorentz-violating type-II Dirac fermions in transition metal dichalcogenide PtTe<sub>2</sub>.

Yan Mingzhe M   Huang Huaqing H   Zhang Kenan K   Wang Eryin E   Yao Wei W   Deng Ke K   Wan Guoliang G   Zhang Hongyun H   Arita Masashi M   Yang Haitao H   Sun Zhe Z   Yao Hong H   Wu Yang Y   Fan Shoushan S   Duan Wenhui W   Zhou Shuyun S  

Nature communications 20170815 1


Topological semimetals have recently attracted extensive research interests as host materials to condensed matter physics counterparts of Dirac and Weyl fermions originally proposed in high energy physics. Although Lorentz invariance is required in high energy physics, it is not necessarily obeyed in condensed matter physics, and thus Lorentz-violating type-II Weyl/Dirac fermions could be realized in topological semimetals. The recent realization of type-II Weyl fermions raises the question whet  ...[more]

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