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AuthorFerragut, R.
AuthorBelov, A. S.
AuthorBonomi, G.
AuthorBoscolo, I.
AuthorBrusa, R. S.
AuthorByakov, V. M.
AuthorCabaret, L.
AuthorCalloni, A.
AuthorCanali, C.
AuthorCarraro, C.
AuthorCastelli, F.
AuthorCialdi, S.
AuthorComparat, D.
AuthorConsolati, G.
AuthorDassa, L.
AuthorDjourelov, N.
AuthorDoser, M.
AuthorDrobychev, G.
AuthorDudarev, A.
AuthorDupasquier, A.
AuthorFerrari, G.
AuthorFischer, A.
AuthorFolegati, P.
AuthorFontana, A.
AuthorFormaro, L.
AuthorGiammarchi, M. G.
AuthorGninenko, S. N.
AuthorHeyne, R.
AuthorHogan, S. D.
AuthorJorgensen, L. V.
AuthorKellerbauer, A.
AuthorKrasnicky, D.
AuthorLagomarsino, V.
AuthorManuzio, G.
AuthorMariazzi, S.
AuthorMatveev, V. A.
AuthorMorhard, C.
AuthorNebbia, G.
AuthorNedelec, P.
AuthorOberthaler, M. K.
AuthorPerini, D.
AuthorPetracek, V.
AuthorPrelz, F.
AuthorPrevedelli, M.
AuthorAl-Qaradawi, I. Y.
AuthorQuasso, F.
AuthorRiccardi, C.
AuthorRohne, O.
AuthorRotondi, A.
AuthorSacerdoti, M.
AuthorSandaker, H.
AuthorSillou, D.
AuthorStepanov, S. V.
AuthorStroke, H. H.
AuthorTestera, G.
AuthorTrezzi, D.
AuthorTurbabin, A. V.
AuthorVaccarone, R.
AuthorVilla, F.
AuthorWarring, U.
AuthorZavatarelli, S.
AuthorZenoni, A.
AuthorZvezhinskij, D. S.
Available date2023-11-16T07:38:35Z
Publication Date2011-01-01
Publication NameCanadian Journal of Physics
Identifierhttp://dx.doi.org/10.1139/P10-099
CitationFerragut, R., Belov, A. S., Bonomi, G., Boscolo, I., Brusa, R. S., Byakov, V. M., ... & Zvezhinskij, D. S. (2011). Antihydrogen physics: gravitation and spectroscopy in AEgIS. Canadian Journal of Physics, 89(1), 17-24.‏
ISSN00084204
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=79251649636&origin=inward
URIhttp://hdl.handle.net/10576/49364
AbstractAEgIS (Antimatter experiment: gravity, interferometry, spectroscopy) is an experiment approved by CERN with the goal of studying antihydrogen physics. In AEgIS, antihydrogen will be produced by charge exchange reactions of cold antiprotons with positronium atoms excited in a Rydberg state (n>20). In the first phase of the experiment, controlled acceleration by an electric field gradient (Stark effect) and subsequent measurement of free fall in a Moiré deflectometer will allow a test of the weak equivalence principle. In a second phase, the antihydrogen will be slowed, confined, and laser-cooled to perform CPT studies and detailed spectroscopy. In the present work, after a general description of the experiment, the present status of advancement will be reviewed, with special attention to the production and excitation of positronium atoms.
Languageen
PublisherCanadian science publishing
Subjectphysics
TitleAntihydrogen physics: Gravitation and spectroscopy in AEgIS
TypeArticle
Pagination17-24
Issue Number1
Volume Number89
dc.accessType Abstract Only


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