Atomic Quantum Sensors in Space
- van Zoest, T.
- Müller, T.
- Wendrich, T.
- Gilowski, M.
- Rasel, E.M.
- Ertmer, W.
- Könemann, T.
- Lämmerzahl, C.
- Dittus, H.
- Vogel, A.
- Bongs, K.
- Sengstock, K.
- Lewoczko-Adamczyk, W.
- Peters, A.
- Steinmetz, T.
- Reichel, J.
- Nandi, G.
- Schleich, W.
- Walser, R.
Publication date
January 2009
DOI Publisher
World Scientific Publishing House LtdAbstract
In this artile we present actual projects concerning high resolution measurements developed for future space missions based on ultracold atoms at the Institut für Quantenoptik (IQ) of the University of Hannover. This work involves the realization of a Bose-Einstein condensate in a microgravitational environment and of an inertial atomic quantum sensor
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