Space-borne Bose-Einstein condensation for precision interferometry
Space offers virtually unlimited free-fall in gravity. Bose-Einstein condensation (BEC) enables ineffable low kinetic energies corresponding to pico- or even femtokelvins. The combination of both features makes atom interferometers with unprecedented sensitivity for inertial forces possible and open...
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| Main Authors | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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Ithaca
Cornell University Library, arXiv.org
18.06.2018
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| Abstract | Space offers virtually unlimited free-fall in gravity. Bose-Einstein condensation (BEC) enables ineffable low kinetic energies corresponding to pico- or even femtokelvins. The combination of both features makes atom interferometers with unprecedented sensitivity for inertial forces possible and opens a new era for quantum gas experiments. On January 23, 2017, we created Bose-Einstein condensates in space on the sounding rocket mission MAIUS-1 and conducted 110 experiments central to matter-wave interferometry. In particular, we have explored laser cooling and trapping in the presence of large accelerations as experienced during launch, and have studied the evolution, manipulation and interferometry employing Bragg scattering of BECs during the six-minute space flight. In this letter, we focus on the phase transition and the collective dynamics of BECs, whose impact is magnified by the extended free-fall time. Our experiments demonstrate a high reproducibility of the manipulation of BECs on the atom chip reflecting the exquisite control features and the robustness of our experiment. These properties are crucial to novel protocols for creating quantum matter with designed collective excitations at the lowest kinetic energy scales close to femtokelvins. |
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| AbstractList | Space offers virtually unlimited free-fall in gravity. Bose-Einstein condensation (BEC) enables ineffable low kinetic energies corresponding to pico- or even femtokelvins. The combination of both features makes atom interferometers with unprecedented sensitivity for inertial forces possible and opens a new era for quantum gas experiments. On January 23, 2017, we created Bose-Einstein condensates in space on the sounding rocket mission MAIUS-1 and conducted 110 experiments central to matter-wave interferometry. In particular, we have explored laser cooling and trapping in the presence of large accelerations as experienced during launch, and have studied the evolution, manipulation and interferometry employing Bragg scattering of BECs during the six-minute space flight. In this letter, we focus on the phase transition and the collective dynamics of BECs, whose impact is magnified by the extended free-fall time. Our experiments demonstrate a high reproducibility of the manipulation of BECs on the atom chip reflecting the exquisite control features and the robustness of our experiment. These properties are crucial to novel protocols for creating quantum matter with designed collective excitations at the lowest kinetic energy scales close to femtokelvins. |
| Author | Amri, Sirine Seidel, Stephan T Braxmaier, Claus Wicht, Andreas Wendrich, Thijs Corgier, Robin Sengstock, Klaus Kubelka-Lange, André Lachmann, Maike D Windpassinger, Patrick Erbe, Maik Hellmig, Ortwin Becker, Dennis Ahlers, Holger Lüdtke, Daniel Franz, Tobias Walser, Reinhold Weps, Benjamin Peters, Achim Kohfeldt, Anja Popp, Manuel Charron, Eric Krutzik, Markus Rasel, Ernst M Dinkelaker, Aline N Gaaloul, Naceur Müntinga, Hauke Ertmer, Wolfgang Schkolnik, Vladimir Schleich, Wolfgang P Duncker, Hannes Herr, Waldemar Lämmerzahl, Claus Grosse, Jens Wenzlawski, André |
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