Collective-Mode Enhanced Matter-Wave Optics

Collective-Mode Enhanced Matter-Wave Optics

In contrast to light, matter-wave optics of quantum gases deals with interactions even in free space and for ensembles comprising millions of atoms. We exploit these interactions in a quantum degenerate gas as an adjustable lens for coherent atom optics. By combining an interaction-driven quadrupole...

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Veröffentlicht in:Physical review letters 2021-09, Vol.127 (10), p.100401-100401, Article 100401
Hauptverfasser: Deppner, Christian, Herr, Waldemar, Cornelius, Merle, Stromberger, Peter, Sternke, Tammo, Grzeschik, Christoph, Grote, Alexander, Rudolph, Jan, Herrmann, Sven, Krutzik, Markus, Wenzlawski, André, Corgier, Robin, Charron, Eric, Guéry-Odelin, David, Gaaloul, Naceur, Lämmerzahl, Claus, Peters, Achim, Windpassinger, Patrick, Rasel, Ernst M.
Format: Artikel
Sprache:eng
Schlagworte:
Atom optics
Bose-Einstein condensates
Kinetic energy
Magnetic lenses
Optics
Physics
Quadrupole interaction
Quadrupoles
Quantum Physics
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Zusammenfassung:In contrast to light, matter-wave optics of quantum gases deals with interactions even in free space and for ensembles comprising millions of atoms. We exploit these interactions in a quantum degenerate gas as an adjustable lens for coherent atom optics. By combining an interaction-driven quadrupole-mode excitation of a Bose-Einstein condensate (BEC) with a magnetic lens, we form a time-domain matter-wave lens system. The focus is tuned by the strength of the lensing potential and the oscillatory phase of the quadrupole mode. By placing the focus at infinity, we lower the total internal kinetic energy of a BEC comprising 101(37) thousand atoms in three dimensions to 3/2 kB⋅38+6−7 pK. Our method paves the way for free-fall experiments lasting ten or more seconds as envisioned for tests of fundamental physics and high-precision BEC interferometry, as well as opens up a new kinetic energy regime.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.127.100401