Semi-Dirac Fermionsin a Topological Metal . https://arxiv.org/pdf/2311.03735v1

 

see: https://arxiv.org/pdf/2311.03735v1

Abstract 

Topological semimetals with massless Dirac and Weyl fermions1,2 represent the forefront of quantum materials research. In two dimensions (2D), a peculiar class of fermions that are massless in one direction and massive in the perpendicular direction was predicted fifteen years ago3–5 . These highly exotic quasiparticles – the semi-Dirac fermions – ignited intense theoretical interest6–14 but remain undetected. Using magneto-optical spectroscopy, we demonstrate the defining feature of semi-Dirac fermions – 𝐵 2/3 scaling of Landau levels – in a prototypical nodal-line metal ZrSiS15,16 . In topological metals, including ZrSiS, nodal-lines extend the band degeneracies from isolated points to lines, loops17,18 or even chains19–22 in the momentum space. With ab initio calculations and theoretical modeling, we pinpoint the observed semi-Dirac spectrum to the crossing points of nodal-lines in ZrSiS. Crossing nodal-lines exhibit a continuum absorption spectrum but with singularities that scale as 𝐵 2/3 at the crossing. Our work sheds light on the hidden quasiparticles emerging from the intricate topology of crossing nodal-lines

see also: https://arxiv.org/pdf/2311.03735v1