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The ability to achieve spatiotemporal control of incoherent (thermal and quantum) light emission has been a critical challenge in the field of optics with far ranging applications from remote sensing, holographic displays and quantum information processing. Here we present our results on two light emitting metasurfaces systems: 1) Ultrafast dynamic steering of spontaneous light emission from high-density InAs quantum dots (QDs) embedded inside GaAs resonators under structured optical pumping and 2) Enhancement of single-photon emission from single GaAs local-droplet epitaxial QDs from within AlGaAs Huygens’ metasurfaces.
Prasad P. Iyer
"Controlling spontaneous emission from semiconductor metasurfaces: from reconfigurability to single photon sources", Proc. SPIE PC12897, High Contrast Metastructures XIII, PC128970W (13 March 2024); https://doi.org/10.1117/12.3001922
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Prasad P. Iyer, "Controlling spontaneous emission from semiconductor metasurfaces: from reconfigurability to single photon sources," Proc. SPIE PC12897, High Contrast Metastructures XIII, PC128970W (13 March 2024); https://doi.org/10.1117/12.3001922