High harmonic generation in Weyl-Kondo semimetals
ORAL
Abstract
When high-intensity light interacts with solid state materials, nonlinear processes generate higher-order harmonics of the incident light. In the presence of strong correlations, high harmonic generation (HHG) characterizes many-body properties such as coherent excitations & charge dynamics, whereas in topological matter, nontrivial Berry curvature contributes to second harmonic generation (SHG) through interband transitions. In light of the discovery of strong-correlation-driven topology in both experimental1-3 & theoretical4-6 studies of a Weyl-Kondo semimetal (WKSM), we study the HHG of the WKSM. Using a Peierls-substituted noncentrosymmetric periodic Anderson model including spin orbit coupling, we elucidate the effect of strong correlations on the SHG order and its intensity.
1S. Dzsaber et al PRL 118 246601 2017
2S. Dzsaber et al arXiv:1811.02819 2018
3S. Dzsaber et al arXiv:1906.01182 2019
4H.-H. Lai, S. E. Grefe, S. Paschen & Q. Si, PNAS 115 93 2018
5S. E. Grefe, H.-H. Lai, S. Paschen & Q. Si, PRB 101, 075138 2020
6S. E. Grefe, H.-H. Lai, S. Paschen & Q. Si, unpub. 2020; JPS Conf. Proc. 30, 011013 2020
1S. Dzsaber et al PRL 118 246601 2017
2S. Dzsaber et al arXiv:1811.02819 2018
3S. Dzsaber et al arXiv:1906.01182 2019
4H.-H. Lai, S. E. Grefe, S. Paschen & Q. Si, PNAS 115 93 2018
5S. E. Grefe, H.-H. Lai, S. Paschen & Q. Si, PRB 101, 075138 2020
6S. E. Grefe, H.-H. Lai, S. Paschen & Q. Si, unpub. 2020; JPS Conf. Proc. 30, 011013 2020
*Work supported by US DOE NNSA under Contract No 89233218CNA000001 through LANL LDRD Program & Center for Integrated Nanotechnologies, a DOE BES user facility. LA-UR-20-28984
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Presenters
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Sarah Grefe
- Rice Univ
- Los Alamos National Lab
- Los Alamos National Laboratory