Topological nature of non-Hermitian degenerate bands in structural parameter space

In photonics, band degeneracies at high-symmetry points in wavevector space have been shown to exhibit rich physical phenomena. However, obtaining degenerate bands away from such points is highly nontrivial. In this work, we achieve complex band degeneracy in a photonic crystal structure over a region of momentum space. We show that this band degeneracy corresponds to polarization-independent transmission, which can be harnessed for nonlocal metasurface design. Moreover, we find that the band degeneracy manifests as a topological singularity in the structural parameter space of the system. Our work highlights the importance of topological concepts in the design of polarization-independent photonic structures.

Citation: O.Y. Long, C. Guo, and S. Fan, “Topological nature of non-Hermitian degenerate bands in structural parameter space,” Physical Review Applied 20, L051001 (2023). https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.20.L051001