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The Gbar project, or how does antimatter fall?
Paul Indelicato,
G. Chardin,
P. Grandemange,
D. Lunney,
V. Manea,
A. Badertscher,
P. Crivelli,
A. Curioni,
A. Marchionni,
B. Rossi,
A. Rubbia,
V. Nesvizhevsky,
D. Brook-Roberge,
P. Comini,
P. Debu,
P. Dupré,
L. Liszkay,
B. Mansoulié,
P. Pérez,
J.-M. Rey,
B. Reymond,
N. Ruiz,
Y. Sacquin,
B. Vallage,
F. Biraben,
P. Cladé,
A. Douillet,
G. Dufour,
S. Guellati,
L. Hilico,
A. Lambrecht,
R. Guérout,
J.-P. Karr,
F. Nez,
S. Reynaud,
C. I. Szabo,
V.-Q. Tran,
J. Trapateau,
A. Mohri,
Y. Yamazaki,
M. Charlton,
Stefan Eriksson ,
N. Madsen,
D.P. van der Werf,
N. Kuroda,
H. Torii,
Y. Nagashima,
F. Schmidt-Kaler,
J. Walz,
S. Wolf,
P.-A. Hervieux,
G. Manfredi,
A. Voronin,
P. Froelich,
S. Wronka,
M. Staszczak,
Dirk van der Werf
Hyperfine Interactions, Volume: 228, Issue: 1-3, Pages: 141 - 150
Swansea University Authors: Stefan Eriksson , Dirk van der Werf
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DOI (Published version): 10.1007/s10751-014-1019-6
Abstract
The Gbar project, or how does antimatter fall?
Published in: | Hyperfine Interactions |
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Published: |
2014
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URI: | https://cronfa.swan.ac.uk/Record/cronfa18706 |
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Issue: |
1-3 |
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Start Page: |
141 |
End Page: |
150 |