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Technology roadmap for cold-atoms based quantum inertial sensor in space
Auteur(s)
Sven Abend
Baptiste Allard
Aidan S. Arnold
Ticijana Ban
Liam Barry
Baptiste Battelier
Ahmad Bawamia
Quentin Beaufils
Simon Bernon
Andrea Bertoldi
Alexis Bonnin
Philippe Bouyer
Alexandre Bresson
Oliver S. Burrow
Benjamin Canuel
Bruno Desruelle
Giannis Drougakis
René Forsberg
Naceur Gaaloul
Alexandre Gauguet
Matthias Gersemann
Paul F. Griffin
Hendrik Heine
Victoria A. Henderson
Waldemar Herr
Simon Kanthak
Markus Krutzik
Maike D. Lachmann
Roland Lammegger
Werner Magnes
Morgan W. Mitchell
Sergio Mottini
Dimitris Papazoglou
Franck Pereira dos Santos
Achim Peters
Ernst Rasel
Erling Riis
Christian Schubert
Stephan Tobias Seidel
Guglielmo M. Tino
Mathias Van Den Bossche
Wolf von Klitzing
Andreas Wicht
Marcin Witkowski
Nassim Zahzam
Michał Zawada
Date de parution
2023
In
AVS Quantum Science
Vol.
5
No
1
Résumé
Recent developments in quantum technology have resulted in a new generation of sensors for measuring inertial quantities, such as acceleration and rotation. These sensors can exhibit unprecedented sensitivity and accuracy when operated in space, where the free-fall interrogation time can be extended at will and where the environment noise is minimal. European laboratories have played a leading role in this field by developing concepts and tools to operate these quantum sensors in relevant environment, such as parabolic flights, free-fall towers, or sounding rockets. With the recent achievement of Bose–Einstein condensation on the International Space Station, the challenge is now to reach a technology readiness level sufficiently high at both component and system levels to provide “off the shelf” payload for future generations of space missions in geodesy or fundamental physics. In this roadmap, we provide an extensive review on the status of all common parts, needs, and subsystems for the application of atom-based interferometers in space, in order to push for the development of generic technology components.
Identifiants
Type de publication
journal article
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