Optimal control of the transport of Bose-Einstein condensates with atom chips

Research output: Contribution to journalArticleResearchpeer review

Authors

  • S. Amri
  • R. Corgier
  • D. Sugny
  • Ernst Maria Rasel
  • Naceur Gaaloul
  • E. Charron

Research Organisations

External Research Organisations

  • Universite Paris-Sud XI
  • University of Burgundy
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Details

Original languageEnglish
Article number5346
JournalScientific Reports
Volume9
Issue number1
Early online date29 Mar 2019
Publication statusE-pub ahead of print - 29 Mar 2019

Abstract

Using Optimal Control Theory (OCT), we design fast ramps for the controlled transport of Bose-Einstein condensates with atom chips’ magnetic traps. These ramps are engineered in the context of precision atom interferometry experiments and support transport over large distances, typically of the order of 1 mm, i.e. about 1,000 times the size of the atomic clouds, yet with durations not exceeding 200 ms. We show that with such transport durations of the order of the trap period, one can recover the ground state of the final trap at the end of the transport. The performance of the OCT procedure is compared to that of a Shortcut-To-Adiabaticity (STA) protocol and the respective advantages/disadvantages of the OCT treatment over the STA one are discussed.

ASJC Scopus subject areas

Cite this

Optimal control of the transport of Bose-Einstein condensates with atom chips. / Amri, S.; Corgier, R.; Sugny, D. et al.
In: Scientific Reports, Vol. 9, No. 1, 5346, 29.03.2019.

Research output: Contribution to journalArticleResearchpeer review

Amri, S., Corgier, R., Sugny, D., Rasel, E. M., Gaaloul, N., & Charron, E. (2019). Optimal control of the transport of Bose-Einstein condensates with atom chips. Scientific Reports, 9(1), Article 5346. Advance online publication. https://doi.org/10.1038/s41598-019-41784-z, https://doi.org/10.15488/4846
Amri S, Corgier R, Sugny D, Rasel EM, Gaaloul N, Charron E. Optimal control of the transport of Bose-Einstein condensates with atom chips. Scientific Reports. 2019 Mar 29;9(1):5346. Epub 2019 Mar 29. doi: 10.1038/s41598-019-41784-z, 10.15488/4846
Amri, S. ; Corgier, R. ; Sugny, D. et al. / Optimal control of the transport of Bose-Einstein condensates with atom chips. In: Scientific Reports. 2019 ; Vol. 9, No. 1.
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title = "Optimal control of the transport of Bose-Einstein condensates with atom chips",
abstract = "Using Optimal Control Theory (OCT), we design fast ramps for the controlled transport of Bose-Einstein condensates with atom chips{\textquoteright} magnetic traps. These ramps are engineered in the context of precision atom interferometry experiments and support transport over large distances, typically of the order of 1 mm, i.e. about 1,000 times the size of the atomic clouds, yet with durations not exceeding 200 ms. We show that with such transport durations of the order of the trap period, one can recover the ground state of the final trap at the end of the transport. The performance of the OCT procedure is compared to that of a Shortcut-To-Adiabaticity (STA) protocol and the respective advantages/disadvantages of the OCT treatment over the STA one are discussed.",
author = "S. Amri and R. Corgier and D. Sugny and Rasel, {Ernst Maria} and Naceur Gaaloul and E. Charron",
note = "Funding information: This work is supported by the DLR Space Administration with funds provided by the Federal Ministry of Economics and Technology (BMWi) under grant numbers DLR 50WM1131-1137, 50WM0940 and 50WM1240 and the “Nieders{\"a}chsisches Vorab” through “F{\"o}rderung von Wissenschaft und Technik in Forschung und Lehre” for the initial funding of research in the new DLR-SI Institute. N.G. acknowledges financial support of the “Nieders{\"a}chsisches Vorab” through the “Quantum-and Nano-Metrology” (QUANOMET) initiative within the project QT3. S.A. and R.C were supported by mobility scholarships of the DAAD. S.A., N.G. and E.C. would like to acknowledge networking support by the COST action CA16221 “Atom Quantum Technologies”. R.C. and N.G. acknowledge mobility support from the DAAD Procope action, from the IP@Leibniz program of the LU Hanover and from the Q-SENSE project funded by the European Union{\textquoteright}s Horizon 2020 Research and Innovation Staff Exchange (RISE) under Grant Agreement Number 691156. N.G. and E.M.R. acknowledge support from the Deutsche Forschungsgemeinschaft through CRC 1227 (DQ-mat), Project No. B07. We also acknowledge the use of the computing cluster MesoLum/GMPCS of the LUMAT research federation (FR 2764 CNRS). The authors thank Waldemar Herr, David Gu{\'e}ry-Odelin and Holger Ahlers for valuable discussions. The publication of this article was funded by the Open Access Fund of the Leibniz Universit{\"a}t Hannover.",
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N1 - Funding information: This work is supported by the DLR Space Administration with funds provided by the Federal Ministry of Economics and Technology (BMWi) under grant numbers DLR 50WM1131-1137, 50WM0940 and 50WM1240 and the “Niedersächsisches Vorab” through “Förderung von Wissenschaft und Technik in Forschung und Lehre” for the initial funding of research in the new DLR-SI Institute. N.G. acknowledges financial support of the “Niedersächsisches Vorab” through the “Quantum-and Nano-Metrology” (QUANOMET) initiative within the project QT3. S.A. and R.C were supported by mobility scholarships of the DAAD. S.A., N.G. and E.C. would like to acknowledge networking support by the COST action CA16221 “Atom Quantum Technologies”. R.C. and N.G. acknowledge mobility support from the DAAD Procope action, from the IP@Leibniz program of the LU Hanover and from the Q-SENSE project funded by the European Union’s Horizon 2020 Research and Innovation Staff Exchange (RISE) under Grant Agreement Number 691156. N.G. and E.M.R. acknowledge support from the Deutsche Forschungsgemeinschaft through CRC 1227 (DQ-mat), Project No. B07. We also acknowledge the use of the computing cluster MesoLum/GMPCS of the LUMAT research federation (FR 2764 CNRS). The authors thank Waldemar Herr, David Guéry-Odelin and Holger Ahlers for valuable discussions. The publication of this article was funded by the Open Access Fund of the Leibniz Universität Hannover.

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