Ultracold atom interferometry in space

Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave function, display a large spatial coherence and can be engineered and probed by optical techniques. Here we explore matter-wave fringes of multiple s...

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Published inNature communications Vol. 12; no. 1; p. 1317
Main Authors Lachmann, Maike D, Ahlers, Holger, Becker, Dennis, Dinkelaker, Aline N, Grosse, Jens, Hellmig, Ortwin, Müntinga, Hauke, Schkolnik, Vladimir, Seidel, Stephan T, Wendrich, Thijs, Wenzlawski, André, Carrick, Benjamin, Gaaloul, Naceur, Lüdtke, Daniel, Braxmaier, Claus, Ertmer, Wolfgang, Krutzik, Markus, Lämmerzahl, Claus, Peters, Achim, Schleich, Wolfgang P, Sengstock, Klaus, Wicht, Andreas, Windpassinger, Patrick, Rasel, Ernst M
Format Journal Article
LanguageEnglish
Published England Nature Publishing Group UK 26.02.2021
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Abstract Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave function, display a large spatial coherence and can be engineered and probed by optical techniques. Here we explore matter-wave fringes of multiple spinor components of a BEC released in free fall employing light-pulses to drive Bragg processes and induce phase imprinting on a sounding rocket. The prevailing microgravity played a crucial role in the observation of these interferences which not only reveal the spatial coherence of the condensates but also allow us to measure differential forces. Our work marks the beginning of matter-wave interferometry in space with future applications in fundamental physics, navigation and earth observation.
AbstractList Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave function, display a large spatial coherence and can be engineered and probed by optical techniques. Here we explore matter-wave fringes of multiple spinor components of a BEC released in free fall employing light-pulses to drive Bragg processes and induce phase imprinting on a sounding rocket. The prevailing microgravity played a crucial role in the observation of these interferences which not only reveal the spatial coherence of the condensates but also allow us to measure differential forces. Our work marks the beginning of matter-wave interferometry in space with future applications in fundamental physics, navigation and earth observation. Conducting atom-optical experiments in space is interesting for fundamental physics and challenging due to different environment compared to ground. Here the authors report matter-wave interferometry in space using atomic BECs in a sounding rocket.
Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave function, display a large spatial coherence and can be engineered and probed by optical techniques. Here we explore matter-wave fringes of multiple spinor components of a BEC released in free fall employing light-pulses to drive Bragg processes and induce phase imprinting on a sounding rocket. The prevailing microgravity played a crucial role in the observation of these interferences which not only reveal the spatial coherence of the condensates but also allow us to measure differential forces. Our work marks the beginning of matter-wave interferometry in space with future applications in fundamental physics, navigation and earth observation.
Conducting atom-optical experiments in space is interesting for fundamental physics and challenging due to different environment compared to ground. Here the authors report matter-wave interferometry in space using atomic BECs in a sounding rocket.
Abstract Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave function, display a large spatial coherence and can be engineered and probed by optical techniques. Here we explore matter-wave fringes of multiple spinor components of a BEC released in free fall employing light-pulses to drive Bragg processes and induce phase imprinting on a sounding rocket. The prevailing microgravity played a crucial role in the observation of these interferences which not only reveal the spatial coherence of the condensates but also allow us to measure differential forces. Our work marks the beginning of matter-wave interferometry in space with future applications in fundamental physics, navigation and earth observation.
ArticleNumber 1317
Author Seidel, Stephan T
Braxmaier, Claus
Wicht, Andreas
Wendrich, Thijs
Sengstock, Klaus
Krutzik, Markus
Rasel, Ernst M
Dinkelaker, Aline N
Gaaloul, Naceur
Müntinga, Hauke
Lachmann, Maike D
Windpassinger, Patrick
Ertmer, Wolfgang
Hellmig, Ortwin
Ahlers, Holger
Becker, Dennis
Carrick, Benjamin
Lüdtke, Daniel
Schkolnik, Vladimir
Schleich, Wolfgang P
Peters, Achim
Lämmerzahl, Claus
Grosse, Jens
Wenzlawski, André
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  givenname: Wolfgang P
  orcidid: 0000-0002-9693-8882
  surname: Schleich
  fullname: Schleich, Wolfgang P
  organization: Hagler Institute for Advanced Study at Texas A&M University; Texas A&M AgriLife Research; Institute for Quantum Science and Engineering (IQSE) and Department of Physics and Astronomy, Texas A&M University, College Station, TX, USA
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  email: rasel@iqo.uni-hannover.de
  organization: Institute of Quantum Optics and QUEST-Leibniz Research School, Leibniz University Hannover, Hannover, Germany. rasel@iqo.uni-hannover.de
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Snippet Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave...
Abstract Bose-Einstein condensates (BECs) in free fall constitute a promising source for space-borne interferometry. Indeed, BECs enjoy a slowly expanding wave...
Conducting atom-optical experiments in space is interesting for fundamental physics and challenging due to different environment compared to ground. Here the...
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Title Ultracold atom interferometry in space
URI https://www.ncbi.nlm.nih.gov/pubmed/33637769
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Volume 12
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