Cascade enhancement and efficient collection of single photon emission under topological protection

Abstract

High emission rate, high collection efficiency, and immunity to the defects are the requirements of implementing on-chip single photon sources. Here, we theoretically demonstrate that both cascade enhancement and high collection efficiency of emitted photons from single emitter can be achieved simultaneously in topological photonic crystal containing a resonant dielectric nanodisk. The nanodisk excited by a magnetic emitter can be regarded as a large equivalent magnetic dipole. The near-field overlapping between this equivalent magnetic dipole and edge state enables to achieve a cascade enhancement of single photon emission with Purcell factor exceeding 4*103. These emitted photons are guided into edge states with collection efficiency of more than 90%, which is also corresponding to quantum yield due to topological anti-scattering and the absence of absorption. The proposed mechanism under topological protection has potential applications in on-chip light-matter interaction, quantum light sources, and nanolasers.