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Topology and symmetry of circular photogalvanic effect in the chiral multifold semimetals: a review

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arxiv 2110.03434 v1 pith:DVGZZLVL submitted 2021-10-07 cond-mat.mtrl-sci

Topology and symmetry of circular photogalvanic effect in the chiral multifold semimetals: a review

classification cond-mat.mtrl-sci
keywords cpgesemimetalschiralquantizedmultifoldquantizationreviewrhsi
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The circular photogalvanic effect (CPGE) is the only possible quantized signal in Chiral Weyl and multi-fold semimetals with inversion and mirror symmetries broken. Here, we review CPGE in the chiral multifold semimetals in terms of classification of CPGE tensor, the quantization of CPGE from k.p effective model and topological semimetal RhSi family. Firstly, we give complete symmetric analysis of CPGE tensors for all nonmagnetic point groups, and get a table classifying matrix of response tensors. Secondly, the CPGE becomes a quantized response in the noncentrosymmetric topological semimetals, and depends on the Chern number of multifold fermions. Based on k.p effective model with linear dispersion, detailed derivations about the quantization of CPGE are given. Finally, according to ab-initio analysis for the quantized CPGE based on noninteracting electronic structures, we review previous reports and make new calculations for the chiral topological semimetals in RhSi family, which can be separated into two groups. The first group, including RhSi, PtAl and CoSi, can be the promising candidates to exhibit a quantized CPGE trace, while the second group includes PdGa, PtGa and RhSn without a quantization.

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