Inertial sensing with quantum gases

T. A. Hensel; S. Loriani; C. Schubert; F. Fitzek; S. Abend; H. Ahlers; J. N. Siemß; K. Hammerer; E. M. Rasel; N. Gaaloul

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Originalsprache	Englisch
Titel des Sammelwerks	Proceedings of the 55th Rencontres de Moriond
Untertitel	2021 Gravitation
Herausgeber/-innen	Etienne Auge, Jacques Dumarchez, Jean Tran Thanh Van
Seiten	33-36
Seitenumfang	4
ISBN (elektronisch)	9791096879144
Publikationsstatus	Veröffentlicht - 2021
Veranstaltung	55th Rencontres de Moriond on Gravitation 2021 - Virtual, Online Dauer: 9 Mai 2021 → 11 Mai 2021

Publikationsreihe

Name	Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation

Abstract

Quantum sensors based on light-pulse atom interferometers allow for measurements of inertial and electromagnetic forces such as the accurate determination of fundamental constants as the fine structure constant or testing foundational laws of modern physics as the equivalence principle. These schemes unfold their full performance when large interrogation times and/or large momentum transfer can be implemented. In this work, we demonstrate how interferometry can benefit from the use of Bose-Einstein condensed sources when the state of the art is challenged. We contrast systematic and statistical effects induced by Bose-Einstein condensed sources with thermal sources in three exemplary science cases of Earth- and space-based sensors.

ASJC Scopus Sachgebiete

Physik und Astronomie (insg.)
Astronomie und Astrophysik
Physik und Astronomie (insg.)
Atom- und Molekularphysik sowie Optik

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Inertial sensing with quantum gases. / Hensel, T. A.; Loriani, S.; Schubert, C. et al.
Proceedings of the 55th Rencontres de Moriond : 2021 Gravitation. Hrsg. / Etienne Auge; Jacques Dumarchez; Jean Tran Thanh Van. 2021. S. 33-36 (Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review

Hensel, TA, Loriani, S, Schubert, C, Fitzek, F, Abend, S, Ahlers, H, Siemß, JN, Hammerer, K, Rasel, EM & Gaaloul, N 2021, Inertial sensing with quantum gases. in E Auge, J Dumarchez & J Tran Thanh Van (Hrsg.), Proceedings of the 55th Rencontres de Moriond : 2021 Gravitation. Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation, S. 33-36, 55th Rencontres de Moriond on Gravitation 2021, Virtual, Online, 9 Mai 2021.

Hensel, T. A., Loriani, S., Schubert, C., Fitzek, F., Abend, S., Ahlers, H., Siemß, J. N., Hammerer, K., Rasel, E. M., & Gaaloul, N. (2021). Inertial sensing with quantum gases. In E. Auge, J. Dumarchez, & J. Tran Thanh Van (Hrsg.), Proceedings of the 55th Rencontres de Moriond : 2021 Gravitation (S. 33-36). (Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation).

Hensel TA, Loriani S, Schubert C, Fitzek F, Abend S, Ahlers H et al. Inertial sensing with quantum gases. in Auge E, Dumarchez J, Tran Thanh Van J, Hrsg., Proceedings of the 55th Rencontres de Moriond : 2021 Gravitation. 2021. S. 33-36. (Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation).

Hensel, T. A. ; Loriani, S. ; Schubert, C. et al. / Inertial sensing with quantum gases. Proceedings of the 55th Rencontres de Moriond : 2021 Gravitation. Hrsg. / Etienne Auge ; Jacques Dumarchez ; Jean Tran Thanh Van. 2021. S. 33-36 (Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation).

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title = "Inertial sensing with quantum gases",

abstract = "Quantum sensors based on light-pulse atom interferometers allow for measurements of inertial and electromagnetic forces such as the accurate determination of fundamental constants as the fine structure constant or testing foundational laws of modern physics as the equivalence principle. These schemes unfold their full performance when large interrogation times and/or large momentum transfer can be implemented. In this work, we demonstrate how interferometry can benefit from the use of Bose-Einstein condensed sources when the state of the art is challenged. We contrast systematic and statistical effects induced by Bose-Einstein condensed sources with thermal sources in three exemplary science cases of Earth- and space-based sensors.",

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note = "Funding Information: Thiscontributiolargelyn reusesmaterial(text,tablesandfigures)ofreference1: Henseletal. EPJD75, 108(2021)publishedundertheCreatievCommonsAttributio4.0n InternationLicense.al This workis supported by the German Space Agency (DLR) with funds providedby the FederaMin-l istry for Economic Affairs and Energy (BMWi) due to an enactmtenof the German Bundestag under Grant Nos. 50WM1861 (CAL) and 50WM2060 (CARIOQA), by “Niedearcsh¨sishcesVorab”through the “Quatnum-andNano-Metrolo(gQyUANOMETin)i”tiateivwithintheproject QT3, through the Deutshce Forschungsgemeihnascft(DFG, German ResearhcFoundationu)nderGermayn{\textquoteright}sExcellence StrategyEXC2123QuatnumFrontiersPro, ject-ID390837967andundertheCRC1227(DQmat)within Projects No. A05, No. B07 and No. B09 and through Frderung vonWissenhscaftundTechnikin ForschungundLehreforthe initial funding of researhcin the new DLR Institute (DLR-SI). We also acknowledgesupport by the QUEST-LFS, the VereinDeutshcerIngenieure (VDI) with funds provided bytheFederaMinistryl ofEducationandResearhc(BMBF)underGrantNo.VDI13N14838(TAIOL). SL acknowledgethes support of the IP@Leibniz program of the Leibniz Universiyt of Hanvoerfor travel grantssupporting his staysin France. ; 55th Rencontres de Moriond on Gravitation 2021 ; Conference date: 09-05-2021 Through 11-05-2021",

year = "2021",

language = "English",

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pages = "33--36",

editor = "Etienne Auge and Jacques Dumarchez and {Tran Thanh Van}, Jean",

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TY - GEN

T1 - Inertial sensing with quantum gases

AU - Hensel, T. A.

AU - Loriani, S.

AU - Schubert, C.

AU - Fitzek, F.

AU - Abend, S.

AU - Ahlers, H.

AU - Siemß, J. N.

AU - Hammerer, K.

AU - Rasel, E. M.

AU - Gaaloul, N.

N1 - Funding Information: Thiscontributiolargelyn reusesmaterial(text,tablesandfigures)ofreference1: Henseletal. EPJD75, 108(2021)publishedundertheCreatievCommonsAttributio4.0n InternationLicense.al This workis supported by the German Space Agency (DLR) with funds providedby the FederaMin-l istry for Economic Affairs and Energy (BMWi) due to an enactmtenof the German Bundestag under Grant Nos. 50WM1861 (CAL) and 50WM2060 (CARIOQA), by “Niedearcsh¨sishcesVorab”through the “Quatnum-andNano-Metrolo(gQyUANOMETin)i”tiateivwithintheproject QT3, through the Deutshce Forschungsgemeihnascft(DFG, German ResearhcFoundationu)nderGermayn’sExcellence StrategyEXC2123QuatnumFrontiersPro, ject-ID390837967andundertheCRC1227(DQmat)within Projects No. A05, No. B07 and No. B09 and through Frderung vonWissenhscaftundTechnikin ForschungundLehreforthe initial funding of researhcin the new DLR Institute (DLR-SI). We also acknowledgesupport by the QUEST-LFS, the VereinDeutshcerIngenieure (VDI) with funds provided bytheFederaMinistryl ofEducationandResearhc(BMBF)underGrantNo.VDI13N14838(TAIOL). SL acknowledgethes support of the IP@Leibniz program of the Leibniz Universiyt of Hanvoerfor travel grantssupporting his staysin France.

PY - 2021

Y1 - 2021

N2 - Quantum sensors based on light-pulse atom interferometers allow for measurements of inertial and electromagnetic forces such as the accurate determination of fundamental constants as the fine structure constant or testing foundational laws of modern physics as the equivalence principle. These schemes unfold their full performance when large interrogation times and/or large momentum transfer can be implemented. In this work, we demonstrate how interferometry can benefit from the use of Bose-Einstein condensed sources when the state of the art is challenged. We contrast systematic and statistical effects induced by Bose-Einstein condensed sources with thermal sources in three exemplary science cases of Earth- and space-based sensors.

AB - Quantum sensors based on light-pulse atom interferometers allow for measurements of inertial and electromagnetic forces such as the accurate determination of fundamental constants as the fine structure constant or testing foundational laws of modern physics as the equivalence principle. These schemes unfold their full performance when large interrogation times and/or large momentum transfer can be implemented. In this work, we demonstrate how interferometry can benefit from the use of Bose-Einstein condensed sources when the state of the art is challenged. We contrast systematic and statistical effects induced by Bose-Einstein condensed sources with thermal sources in three exemplary science cases of Earth- and space-based sensors.

UR - http://www.scopus.com/inward/record.url?scp=85181128074&partnerID=8YFLogxK

UR - https://moriond.in2p3.fr/2021/download/proceedings_gravitation_2021.pdf

M3 - Conference contribution

AN - SCOPUS:85181128074

T3 - Proceedings of the 55th Rencontres de Moriond - 2021 Gravitation

SP - 33

EP - 36

BT - Proceedings of the 55th Rencontres de Moriond

A2 - Auge, Etienne

A2 - Dumarchez, Jacques

A2 - Tran Thanh Van, Jean

T2 - 55th Rencontres de Moriond on Gravitation 2021

Y2 - 9 May 2021 through 11 May 2021

ER -

Research@Leibniz University

Inertial sensing with quantum gases

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