ATOM-LIGHT CRYSTALS IN PHOTONIC CRYSTALS

Project Information

CRYST^3

Grant agreement ID: 964531

Project website

DOI

10.3030/964531

EC signature date 21 December 2020

Start date 1 April 2021

End date 31 December 2025

Funded under

EXCELLENT SCIENCE - Future and Emerging Technologies (FET)

Total cost

€ 3 586 428,75

EU contribution

€ 3 586 428,75

3 586 428,75

Coordinated by

ALMA MATER STUDIORUM - UNIVERSITA DI BOLOGNA
Italy

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Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .

Deliverables

"2D simulation-driven fabrication, supply of HCPCF, batch #1"

Fabrication of the first batch of HCPCF based on 2D simulation models less demanding of computational resources

Long range atomic interactions and gauge fields in HCPCFs

Results of theoretical analysis of the generation of longrange interactions among atoms and Gauge fields mediated by the photonic modes

HCPCF/PMC specifications definition and supply roadmap

Definition of specifications required for the HCPCF and PMC to be realized definition of a roadmap for their design and fabrication

Simulation results of atom cooling/trapping in-fiber

Results of numerical simulations of laser cooling processes occurring within a HCPCF

Data Management Plan

The Data Management Plan describes how data will be handled during the Project and after the project is completed The goal of a data management plan is to define data management data and metadata generation data preservation

Website

First version of project website visible online

Publications

Enhancing fiber atom interferometer by in-fiber laser cooling

Author(s): Yu Wang; Shijie Chai; Thomas Billotte; Zilong Chen; Mingjie Xin; Wui Seng Leong; Foued Amrani; Benoit Debord; Fetah Benabid; Shau-Yu Lan
Published in: Physical Review Research, Issue 5, 2022, ISSN 2643-1564
Publisher: American Physical Society
DOI: 10.26226/m.6275705f66d5dcf63a3117b1

Fast Control of Atom-Light Interaction in a Narrow Linewidth Cavity.

Author(s): Andrea Bertoldi; C.-H. Feng; D. S. Naik; Benjamin Canuel; Philippe Bouyer; Marco Prevedelli
Published in: Physical Review Letters, Issue 5, 2021, ISSN 1079-7114
Publisher: American Physical Society
DOI: 10.1103/physrevlett.127.013202

Analytical Formulas for Micro-Bending and Surface Scattering Loss Estimation in Tube Lattice Fibers

Author(s): Federico Melli; Lorenzo Rosa; Luca Vincetti
Published in: Journal of Lightwave Technology, Issue 3, 2023, ISSN 0733-8724
Publisher: Optical Society of America
DOI: 10.1109/jlt.2023.3265167

High power continuous laser at 461 nm based on a compact and high-efficiency frequency-doubling linear cavity

Author(s): C.-H. Feng; Sébastien Vidal; Paul Robert; Philippe Bouyer; Bruno Desruelle; Marco Prevedelli; Johan Boullet; Giorgio Santarelli; Andrea Bertoldi
Published in: Optics Express, Issue 5, 2021, ISSN 1094-4087
Publisher: Optical Society of America
DOI: 10.1364/oe.433179

A Versatile Quantum Simulator for Coupled Oscillators Using a 1D Chain of Atoms Trapped near an Optical Nanofiber

Author(s): Daniela Holzmann, Matthias Sonnleitner and Helmut Ritsch
Published in: Photonics, Issue 8(6), 2021, Page(s) 228, ISSN 2304-6732
Publisher: MDPI
DOI: 10.3390/photonics8060228

Hollow-core fibers with reduced surface roughness and ultralow loss in the short-wavelength range

Author(s): Jonas H. Osório; Foued Amrani; Frédéric Delahaye; Ali Dhaybi; Kostiantyn Vasko; Federico Melli; Fabio Giovanardi; Damien Vandembroucq; Gilles Tessier; Luca Vincetti; Benoît Debord; Frédéric Gérôme; Fetah Benabid
Published in: Nature Communications, Issue 3, 2022, ISSN 2041-1723
Publisher: Nature Publishing Group
DOI: 10.1038/s41467-023-36785-6

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Deliverables

Publications

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