Investigating the Energy Dependent Photogalvanic Effect in the Type-II Weyl Semimetal NbIrTe₄

We explore the photogalvanic effect in NbIrTe₄ , a type II Weyl semimetal. NbIrTe4 exhibits 8 pairs of Weyl nodes which are monopoles of Berry curvature with opposite ±1 chiralities. We measured the photoresponse for a full rotation of a quarter wave plate for energies ranging from 0.3 to 1 eV. The Photothermoelectric (PT), and Circular (CPGE) and Linear (LPGE) Photogalvanic responses were extracted by fitting the angular dependence of the signal. The PT response shows an onset at an energy at 0.3 eV, consistent with DFT calculations. The LPGE response is relatively constant over this energy range, while the CPGE response shows a strong increase at low energies as the excitation approaches the Weyl nodes at the Fermi energy. Surprisingly, a strong peak in the CPGE response is also seen in the range 0.5 to 0.7 eV. This suggests that the CPGE response may be enhanced by a transition between bands near the Weyl point and a higher lying state.