Publications
Topological photonic structures for nanophotonics
Topological photonic structures in analogy to their electronic counterparts can provide new functionalities in nanophotonics. In particular, they can possess topologically protected photonic modes that can propagate unidirectionally without scattering and can have an extreme photonic density of states (PDOS). These unique properties can directly impact many photonic systems in optical communications and in quantum information processing applications such as single photon transport. In analogy to spin Hall effect in electronics, photonic systems can exhibit helicity or pseudo-spin dependent light transport. Below we describe such a system in a honeycomb two-dimensional hole-array photonic crystal. Enabling such properties at optical frequencies and on chip-scale will be very important for practical applications of such phenomena.