CORDIS Project
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This project leverages optical fiber microcavities to enhance quantum measurement techniques, aiming to improve atomic clock stability. It explores multiparticle entanglement and develops new atom-light interfaces for advanced quantum applications.
I propose to leverage the unique properties of optical fiber Fabry-Perot (FFP) microcavities pioneered by my group to advance the field of quantum engineering.
We will take quantum-enhanced measurement from its current proof-of-principle state to a true metrological level by applying cavity-based spin squeezing to a compact atomic clock, aiming to improve the clock stability beyond one part in 10^-13 in one second.
In a new experiment, we will generate multiparticle entangled states with high me…
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