Spin unique en Microcavité : Initialisation et mesures Non-Destructives – MIND
We ambition to implement the initialization and non-destructive measurement of an electron spin resident in a quantum dot in a microcavity, taking advantage of the enhanced light-matter interaction to increase the initialization and measurement performances. We aim at the real-time observation of the quantum jumps of the spin qubit, induced by its interaction with the environment. This project will require the development of a resonant spectroscopy/resonant pumping experiment on nano-objects, as well as technological developments for the deterministic coupling of charged quantum dots to a microcavity mode. The long-run perspective is the development of quantum logic gates for quantum information, using light as a mediator to induce a controlled interaction between two distant spins.
The author of this summary is the project coordinator, who is responsible for the content of this summary. The ANR declines any responsibility as for its contents.
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Beginning and duration of the scientific project: - 0 Months