Exploring photonic topology

Abstract

Optics Scattering topological effects are being explored in a variety of electronic and optical materials systems owing to their robustness against defects (see the Perspective by Ozdemir). Yang et al. designed and fabricated an ideal optical analog of a three-dimensional Weyl system. Angular transmission measurements revealed four Weyl points at the same energy, as well as the signature helicoidal arcs associated with such an exotic topological system. Zhou et al. theoretically proposed and experimentally demonstrated the formation of a topologically protected bulk Fermi arc. They attributed the formation of the arc to the topological nature of paired exceptional points (points at which gain and loss in the system are matched). Photonic crystals may provide a powerful platform for studying exotic properties of topological electronic systems and may also be used to develop optical devices that exploit topological properties of light-matter interactions. Science , this issue p. [1013][1], p. [1009][2]; see also p. [995][3] [1]: /lookup/doi/10.1126/science.aaq1221 [2]: /lookup/doi/10.1126/science.aap9859 [3]: /lookup/doi/10.1126/science.aar8210