Abstract
There is tremendous interest in measuring the strong electron–phonon interactions seen in topological Weyl semimetals. The semimetal NbIrTe4 has been proposed to be a Type-II Weyl semimetal with 8 pairs of opposite Chirality Weyl nodes which are very close to the Fermi energy. We show using polarized angular-resolved micro-Raman scattering at two excitation energies that we can extract the phonon mode dependence of the Raman tensor elements from the shape of the scattering efficiency versus angle. This van der Waals semimetal with broken inversion symmetry and 24 atoms per unit cell has 69 possible phonon modes of which we measure 19 modes with frequencies and symmetries consistent with Density Functional Theory calculations. We show that these tensor elements vary substantially in a small energy range which reflects a strong variation of the electron–phonon coupling for these modes.
Original language | English |
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Article number | 8155 |
Journal | Scientific Reports |
Volume | 11 |
Issue number | 1 |
DOIs | |
State | Published - Dec 2021 |
Externally published | Yes |
Funding
We acknowledge the financial support of NSF through grants DMR 1507844, DMR 1531373, DMR 1505549 and ECCS 1509706, and the NSF of China through grant 11674278. S.D.W. and B.R.O. acknowledge support from the University of California Santa Barbara Quantum Foundry, funded by the National Science Foundation (NSF DMR-1906325). Research reported here also made use of shared facilities of the UCSB MRSEC (NSF DMR-1720256). B.R.O. also acknowledges support from the California NanoSystems Institute through the Elings Fellowship program.
Funders | Funder number |
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California NanoSystems Institute | |
University of California Santa Barbara Quantum Foundry | |
National Science Foundation | 11674278, ECCS 1509706, DMR 1531373, 1507844, DMR 1505549, 1505549, DMR 1507844, DMR-1906325 |
Center for Selective C-H Functionalization, National Science Foundation | |
Center for Hierarchical Manufacturing, National Science Foundation | |
National Natural Science Foundation of China |