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Paper detail

Dirac Fermions and Possible Weak Antilocalization in LaCuSb$_{2}$

Layered heavy-metal square-lattice compounds have recently emerged as potential Dirac fermion materials due to bonding within those sublattices. We report quantum transport and spectroscopic data on the layered Sb square-lattice material LaCuSb$_{2}$. Linearly dispersing band crossings, necessary to generate Dirac fermions, are experimentally observed in the electronic band structure observed using angle-resolved photoemission spectroscopy (ARPES), along with a quasi-two-dimensional Fermi surface. Weak antilocalization that arises from two-dimensional transport is observed in the magnetoresistance, as well as regions of linear dependence, both of which are indicative of topologically non-trivial effects. Measurements of the Shubnikov-de Haas (SdH) quantum oscillations show low effective mass electrons on the order of 0.065$m_{e}$, further confirming the presence of Dirac fermions in this material.

preprint2020arXivOpen access
J. R. ChamorroA. ToppY. FangM. J. WiniarskiC. R. AstM. KrivenkovA. VarykhalovB. J. RamshawL. SchoopT. M. McQueen
cond-mat.mtrl-sci
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J. R. ChamorroA. ToppY. FangM. J. WiniarskiC. R. AstM. KrivenkovA. VarykhalovB. J. RamshawL. SchoopT. M. McQueen

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