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An ab-initio study of circular photogalvanic effect in chiral multifold semimetals

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arxiv 2005.12220 v1 pith:5U5QMN5F submitted 2020-05-25 cond-mat.mtrl-sci cond-mat.mes-hall

An ab-initio study of circular photogalvanic effect in chiral multifold semimetals

classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords quantizedcpgecurrentsignalab-initiobandcircularrealistic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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So far, the circular photogalvanic effect (CPGE) is the only possible quantized signal in Weyl semimetals. With inversion and mirror symmetries broken, Weyl and multifold fermions in band structures with opposite chiralities can stay at different energies and generate a net topological charge. Such kind of net topological charge can present as a quantized signal in the circular polarized light induced injection current. According to current theoretical understanding, RhSi and its counterparts are believed to be the most promising candidate for the experimental observation of the quantized CPGE. However, the real quantized signal was not experimentally observed to date. Since all the previous theoretical studies for the quantized CPGE were based on effective model but not realistic band structures, it should lose some crucial details that influence the quantized signal. The current status motives us to perform a realistic ab-initio study for the CPGE. Our result shows that the quantized value is very easy to be interfered by trivial bands related optic transitions, and an fine tuning of the chemical potential by doping is essential for the observation of quantized CPGE. This work performs the first ab-initio analysis for the quantized CPGE based on realistic electronic band structure and provides an effective way to solve the current problem for given materials.

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