Berry bands and pseudo-spin of topological photonic phases

Realizing photonic analogs of the robust, unidirectional edge states of electronic topological insulators would improve our control of light on the nanoscale and revolutionize the performance of photonic devices. Here, we show that new symmetry-protected topological phases can be detected by reformulating energy eigenproblems as Berry curvature eigenproblems. The Berry bands span the same eigenspace as the original valence energy bands, but separate into pseudo-spinful and pseudo-spinless subspaces in C2T-symmetric crystals. We demonstrate the method on the well-known case of Wu and Hu [Phys. Rev. Lett 114, 223901 (2015)] and a recently discovered fragilely topological crystal, and show that both crystals belong to the same photonic analog of the quantum spin-Hall effect. This work helps unite theory and numerics, and is useful in defining and identifying new symmetry-protected phases in photonics and electronics.

Automated summary

This study demonstrates the detection of new symmetry-protected topological phases by reformulating energy eigenproblems as Berry curvature eigenproblems, showing characteristics of Berry bands in C2T symmetric crystals, helping unify theory and numerics, and defining and identifying new symmetry-protected phases in photonics and electronics.