Litcius/Paper detail

Regulated Photon Transport in Chaotic Microcavities by Tailoring Phase Space

Yan-Jun Qian, Hui Liu, Qi-Tao Cao, Julius Kullig, Kexiu Rong, Cheng-Wei Qiu, Jan Wiersig, Qihuang Gong, Jianjun Chen, Yun-Feng Xiao

2021Physical Review Letters20 citationsDOI

Abstract

Manipulating light dynamics in optical microcavities has been made mainly either in real or momentum space. Here we report a phase-space tailoring scheme, simultaneously incorporating spatial and momentum dimensions, to enable deterministic and in situ regulation of photon transport in a chaotic microcavity. In the time domain, the chaotic photon transport to the leaky region can be suppressed, and the cavity resonant modes show stronger temporal confinement with quality factors being improved by more than 1 order of magnitude. In the spatial domain, the emission direction of the cavity field is controlled on demand through rerouting chaotic photons to a desired channel, which is verified experimentally by the far-field pattern of a quantum-dot microlaser. This work paves a way to in situ study of chaotic physics and promoting advanced applications such as arbitrary light routing, ultrafast random bit generation, and multifunctional on-chip lasers.

Topics & Concepts

PhysicsChaoticPhotonMomentum (technical analysis)Ultrashort pulsePhase spacePhase (matter)Field (mathematics)Position and momentum spaceChaotic scatteringWork (physics)PhotonicsParameter spaceQuantum opticsQuality (philosophy)OpticsSpace (punctuation)Optical cavityOptical chaosOptical physicsQuantum mechanicsOptical microcavityScatteringStrong Light-Matter InteractionsMechanical and Optical ResonatorsPhotonic Crystals and Applications