Limiting the Spectral Diffusion of Nano-Scale Light Emitters using the Purcell effect in a Photonic-Confined Environment

Lyasota, A.Jarlov, C.Rudra, A.Dwir, B.Kapon, E.2019-02-162019-02-162019-02-162019-02-0410.1038/s41598-018-37677-2https://infoscience.epfl.ch/handle/20.500.14299/154484WOS:000457616300084Partial suppression of the spectral diffusion of quantum dot (QD) excitons tuned to resonance of a nano-photonic cavity is reported. The suppression is caused by the Purcell enhancement of the QD-exciton recombination rate, which alters the rate of charging of the solid-state environment by the QD itself. The effect can be used to spectrally-stabilize solid-state emitters of single photons and other non-classical states of light.Multidisciplinary SciencesScience & Technology - Other Topicsquantum-dot blinkingfluorescence intermittencyspontaneous emissionsuppressionLimiting the Spectral Diffusion of Nano-Scale Light Emitters using the Purcell effect in a Photonic-Confined Environmenttext::journal::journal article::research article