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

A. Lyasota; C. Jarlov; A. Rudra; B. Dwir; E. Kapon

Journal ArticleOPEN ACCESS

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

Lyasota A
Jarlov C
Rudra A
et al.

Scientific Reports (2019) 9(1)

DOI: 10.1038/s41598-018-37677-2

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23Readers

Abstract

Partial 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.

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Lyasota, A., Jarlov, C., Rudra, A., Dwir, B., & Kapon, E. (2019). Limiting the Spectral Diffusion of Nano-Scale Light Emitters using the Purcell effect in a Photonic-Confined Environment. Scientific Reports, 9(1). https://doi.org/10.1038/s41598-018-37677-2

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

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