Topological Photonics.
Topological photonics is a rapidly-emerging field of research in which geometrical and topological ideas are exploited to design and control the behavior of light. Drawing inspiration from the discovery of the quantum Hall effects and topological insulators in condensed matter, recent advances have shown how to engineer analogous effects also for photons, leading to remarkable phenomena such as the robust unidirectional propagation of light, which hold great promise for applications. Thanks to the flexibility and diversity of photonics systems, this field is also opening up new opportunities to realise exotic topological models and to probe and exploit topological effects in new ways. In this article, we review experimental and theoretical developments in topological photonics across a wide-range of experimental platforms, including photonic crystals, waveguides, metamaterials, cavities, optomechanics, silicon photonics and circuit-QED. We discuss how changing the dimensionality and symmetries of photonics systems has allowed for the realization of different topological phases, and we review progress in understanding the interplay of topology with non-Hermitian effects, such as dissipation. As an exciting perspective, topological photonics can be combined with optical nonlinearities, leading towards new collective phenomena and novel strongly-correlated states of light, such as an analogue of the fractional quantum Hall effect.
Publisher URL: http://arxiv.org/abs/1802.04173
DOI: arXiv:1802.04173v1
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