CORDIS Project
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This project explores new methods for cooling and trapping atoms near nanostructures to study quantum light-matter interactions. It aims to develop integrated quantum technologies, such as single-photon sources and efficient quantum memory, by investigating collective effects in arrays of cold atoms near a nanofiber.
Recently developed experimental techniques for cooling, trapping and localizing atoms near nanostructures, such as one-dimensional nanoscopic waveguides, offer a new paradigm to investigate quantum light-matter interactions.
Collective coherent effects in such engineered interfaces pave the way to integrated quantum technology applications, including single-photon sources and efficient quantum memory for light.
The present project investigates this approach based on arrays of cold atoms trapped…
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