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arxiv: 2212.01181 · v1 · pith:G4DO63LL · submitted 2022-12-02 · cond-mat.mtrl-sci

Charge density wave induced nodal lines in LaTe₃

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classification cond-mat.mtrl-sci
keywords nodalbandscrossingsdensitylatearpesbandcharge
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LaTe$_3$ is a noncentrosymmetric (NC) material with time reversal (TR) symmetry in which the charge density wave (CDW) is hosted by the Te bilayers. Here, we show that LaTe$_3$ hosts a Kramers nodal line (KNL), a twofold degenerate nodal line that connects the TR invariant momenta in NC achiral systems, using angle resolved photoemission spectroscopy (ARPES), density functional theory (DFT), effective band structure (EBS) calculated by band unfolding, and symmetry arguments. DFT incorporating spin-orbit coupling (SOC) reveals that the KNL -- protected by the TR and lattice symmetries -- imposes gapless crossings between the bilayer-split CDW-induced shadow bands and the main bands. In excellent agreement with the EBS, ARPES data corroborate the presence of the KNL and show that the crossings traverse the Fermi level. Furthermore, spinless nodal lines - entirely gapped out by the SOC - are formed by the linear crossings of the shadow and main bands with a high Fermi velocity.

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Cited by 1 Pith paper

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  1. Interplay of Kondo Physics with Incommensurate Charge Density Waves in CeTe$_3$

    cond-mat.str-el 2025-02 unverdicted novelty 4.0

    ARPES on CeTe₃ reveals k-dependent renormalization of bands from hybridization with distant 4f states extending to EF without producing heavy fermions, suggesting an explanation for mass discrepancies in heavy fermions.