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W2786675384 abstract "Topological semimetals are characterized by their intriguing Fermi surfaces (FSs) such as Weyl and Dirac points, or nodal FS, and their associated surface states. Among them, topological crystalline semimetals, in the presence of strong spin-orbit coupling, possess a nodal FS protected by non-symmorphic lattice symmetries. In particular, it was theoretically proposed that $mathrm{SrIrO}_{3}$ exhibits a bulk nodal ring due to glide symmetries, as well as flat two-dimensional surface states related to chiral and mirror symmetries. However, due to the semimetallic nature of the bulk, direct observation of these surface states is difficult. Here we study the effect of flat-surface states on phonon modes for $mathrm{SrIrO}_{3}$ side surfaces. We show that particular phonon modes, based on mirror symmetry, have qualitatively different damping mechanisms due to the surface states which could be used to infer their existence. Experimental techniques for such measurements are also discussed." @default.
W2786675384 created "2018-02-23" @default.
W2786675384 creator A5065238882 @default.
W2786675384 creator A5088153713 @default.
W2786675384 date "2018-05-07" @default.
W2786675384 modified "2023-10-16" @default.
W2786675384 title "Selective phonon damping in topological semimetals" @default.
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W2786675384 doi "https://doi.org/10.1103/physrevb.97.195106" @default.
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