Floquet Theory in an Irradiated Nodal Surface Semimetal

Bhaskar Pandit, Satyaki Kar

Published 2024-06-06Version 1

A nodal surface semimetal (NSSM) features symmetry enforced band crossings along a surface within the three-dimensional (3D) Brillouin zone. The topological robustness of the same does not always come with nonzero Berry fluxes around nodal surfaces. Irrespective of that, however, light irradiation on such system can result in interesting dynamic behavior. We find that depending on the state of polarization, one can obtain additional Weyl points/ nodal surfaces in the Floquet Hamiltonian that the time periodic system gives rise to. For simplicity we only consider two band spinless models without any spin orbit coupling, the main emphasis being to understand the low energy behavior close to the band crossings and its evolution in a Floquet system in the high frequency limit. There we find the nodal surfaces to perish or get duplicated or triplicated for different polarization scenario or different NSSM Hamiltonians. One findings open up important directions on what out of equilibrium NSSM systems has to offer in many active fields including quantum computations.