iSense A technology platform for cold atom based quantum technologies

Authors
  • K. Bongs
  • J. Malcolm
  • C. Ramelloo
  • L. Zhu
  • V. Boyer
  • T. Valenzuela
  • J. Maclean
  • A. Piccardo-Selg
  • C. Mellor
  • T. Fernholz
  • M. Fromhold
  • P. Krüger
  • O. Hellmig
  • A. Grote
  • S. Dörscher
  • H. Duncker
  • P. Windpassinger
  • K. Sengstock
  • C. Becker
  • B. Pelle
  • A. Hilico
  • M. Zhou
  • M.C. Angonin
  • P. Wolf
  • F. Pereira dos Santos
  • F.A. Bertoldi
  • P. Bouyer ORCID logo
  • T. Mazzoni
  • N. Poli
  • F. Sorrentino
  • M. Tarallo
  • G.M. Tino
  • S. Stellmer
  • F. Schreck
  • M. Popp
  • W. Herr
  • T. Wendrich
  • W. Ertmer
  • E. Rasel
  • C. Kürbis
  • A. Peters
  • A. Wicht
Publication date 2014
Book title Research in Optical Sciences : Quantum Information and Measurement
Book subtitle 18–20 March 2014, Messe Berlin, Berlin, Germany
ISBN (electronic)
  • 9781557529954
Series OSA Technical Digest
Event Quantum Information and Measurement, QIM 2014
Article number QTu3B.1
Number of pages 3
Publisher Washington, DC: Optica Publishing Group
Organisations
  • Faculty of Science (FNWI) - Institute of Physics (IoP) - Van der Waals-Zeeman Institute (WZI)
Abstract

A breakthrough in cold atom quantum technology is hindered by a bottleneck in the supporting technologies. We discuss a cold atom technology platform developed within the European iSense project, aiming at a gravimeter as demonstrator.
Document type Conference contribution
Language English
Published at https://doi.org/10.1364/qim.2014.qtu3b.1
Other links https://www.scopus.com/pages/publications/85088346304
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