Authors
M Doser, C Amsler, A Belov, G Bonomi, P Bräunig, J Bremer, R Brusa, G Burkhart, L Cabaret, C Canali, F Castelli, K Chlouba, S Cialdi, D Comparat, G Consolati, L Di Noto, A Donzella, A Dudarev, T Eisel, R Ferragut, G Ferrari, A Fontana, P Genova, M Giammarchi, A Gligorova, S Gninenko, S Haider, JP Hansen, S Hogan, L Jorgensen, T Kaltenbacher, A Kellerbauer, D Krasnicky, V Lagomarsino, S Mariazzi, V Matveev, F Merkt, F Moia, G Nebbia, P Nedelec, M Oberthaler, D Perini, V Petracek, F Prelz, M Prevedelli, C Regenfus, C Riccardi, O Rohne, A Rotondi, M Sacerdoti, H Sandaker, M Spacek, J Storey, G Testera, A Tokareva, D Trezzi, R Vaccarone, F Villa, Z Zavatarelli, A Zenoni, AEGIS Collaboration
Publication date
2012/9/21
Journal
Classical and quantum gravity
Volume
29
Issue
18
Pages
184009
Publisher
IOP Publishing
Description
The AEGIS experiment, currently being set up at the Antiproton Decelerator at CERN, has the objective of studying the free fall of antimatter in the Earth's gravitational field by means of a pulsed cold atomic beam of antihydrogen atoms. Both duration of free fall and vertical displacement of the horizontally emitted atoms will be measured, allowing a first test of the WEP with antimatter.
Scholar articles
M Doser, C Amsler, A Belov, G Bonomi, P Bräunig… - Classical and Quantum Gravity, 2012