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Collective effect with ordered nanofiber-trapped atomic arrays as efficient ligh...

Collective effect with ordered nanofiber-trapped atomic arrays as efficient light-matter interfaces Efficient interactions between photons and quantum emitters are at the heart of numerous quantum information devices, such as quantum memories, switches or gates. Using chains of individual cold atoms trapped close to an optical n... see more

31/03/2026

SORBONNE UNIVERSIT...

212K€

Project Budget: 212K€

Project leader

SORBONNE UNIVERSITE No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

PARTICIPATION DEPralty Sin fecha límite de participación.

Financing granted El organismo HORIZON EUROPE notifico la concesión del proyecto The day 2024-03-04

HORIZON-MSCA-2023-PF-01-01: MSCA Postdoctoral Fellowships 2023 Expected Outcome:Project results are expected to contribute to the following outcomes:

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Este proyecto no cuenta con búsquedas de partenariado abiertas en este momento.

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No hay información privada compartida para este proyecto. Habla con el coordinador.

1 Participantes

SORBONNE UNIVERSITE

211.75K€ | Leader

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Project duration: 24 months Date Start: 2024-03-04
End date: 2026-03-31

Project leader

SORBONNE UNIVERSITE No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

Project Budget 212K€

participation deadline Sin fecha límite de participación.

Project description Efficient interactions between photons and quantum emitters are at the heart of numerous quantum information devices, such as quantum memories, switches or gates. Using chains of individual cold atoms trapped close to an optical nanofiber, the goal of the proposed research is to exploit the enhanced linear and non-linear quantum interactions that can result from the unique features of such one-dimensional ordered arrays. Periodically arranged atomic structures indeed exhibit specific light scattering properties, i.e., Bragg reflection, super-, sub- and even selective radiance. The interaction of guided light with ordered arrays can lead to tailored functionalities unavailable in current light-matter interfaces. Novel and resource-efficient quantum memory and gate protocols will be targeted. This project will push this original light-atom array paradigm towards building blocks for future quantum technologies. The candidate, with a strong background in atomic physics, quantum optics, and nonlinear optics will exploit his expertise to develop the project while extending his skillset towards the implementation of quantum information networks and further developing his innovation and leadership abilities during the fellowship.

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