부산대학교 도서관

The energy spectrum of topological semimetals contains protected degeneracies in reciprocal space that correspond to Weyl, Dirac, or multifold fermionic states. To exploit the unconventional properties of these states, one has to access the electronic structure of the three-dimensional bulk. In this work, we resolve the bulk electronic states of candidate topological semimetal FeSi using momentum-dependent resonant inelastic X-ray scattering (RIXS) at the Fe $L_3$ edge. We observe a broad excitation continuum devoid of sharp features, consistent with particle-hole scattering in an underlying electronic band structure. Using density functional theory, we calculate the electronic structure of FeSi and derive a band theory formulation of RIXS in the fast collision approximation to model the scattering process. We find that band theory qualitatively captures the number and position of the main spectral features, as well as the overall momentum dependence of the RIXS intensity. Our work paves the way for targeted studies of band touchings in topological semimetals with RIXS.