G
G. Manuzio
Researcher at University of Genoa
Publications - 55
Citations - 1679
G. Manuzio is an academic researcher from University of Genoa. The author has contributed to research in topics: Antihydrogen & Antimatter. The author has an hindex of 17, co-authored 55 publications receiving 1578 citations. Previous affiliations of G. Manuzio include Istituto Nazionale di Fisica Nucleare.
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Journal ArticleDOI
Production and detection of cold antihydrogen atoms
M. Amoretti,Claude Amsler,Germano Bonomi,Germano Bonomi,A. Bouchta,P. D. Bowe,C. Carraro,C. L. Cesar,C. L. Cesar,M. Charlton,M. J. T. Collier,Michael Doser,V. Filippini,K.S. Fine,Adriano Fontana,Adriano Fontana,M. C. Fujiwara,R. Funakoshi,P. Genova,P. Genova,J. S. Hangst,Ryugo S. Hayano,M. H. Holzscheiter,L. V. Jørgensen,V. Lagomarsino,V. Lagomarsino,R. Landua,D. Lindelöf,E. Lodi Rizzini,E. Lodi Rizzini,M. Macri,Niels Madsen,G. Manuzio,G. Manuzio,M. Marchesotti,P. Montagna,P. Montagna,H. Pruys,C. Regenfus,Petra Riedler,J. Rochet,J. Rochet,Alberto Rotondi,Alberto Rotondi,G. Rouleau,G. Rouleau,G. Testera,Alessandro Variola,T. L. Watson,D. P. van der Werf +49 more
TL;DR: This work demonstrates the production of antihydrogen atoms at very low energy by mixing trapped antiprotons and positrons in a cryogenic environment and detects the neutral anti-atoms directly when they escape the trap and annihilate, producing a characteristic signature in an imaging particle detector.
Journal ArticleDOI
Proposed antimatter gravity measurement with an antihydrogen beam
Alban Kellerbauer,M. Amoretti,A. S. Belov,Germano Bonomi,I. Boscolo,R. S. Brusa,Matthias Büchner,Vsevolod M. Byakov,L. Cabaret,Carlo Canali,C. Carraro,Fabrizio Castelli,Simone Cialdi,M. de Combarieu,Daniel Comparat,Giovanni Consolati,Nikolay Djourelov,Michael Doser,G. Drobychev,Alfredo Dupasquier,Gabriele Ferrari,P. Forget,L. Formaro,Antonella Gervasini,Marco Giammarchi,Sergei Gninenko,Gleb Gribakin,S. D. Hogan,Marion Jacquey,V. Lagomarsino,G. Manuzio,Sebastiano Mariazzi,Viktor Matveev,J. O. Meier,Frédéric Merkt,P. Nedelec,Markus K. Oberthaler,P. Pari,Marco Prevedelli,Fiorenza Quasso,Alberto Rotondi,D. Sillou,Sergey V. Stepanov,H. H. Stroke,G. Testera,Guglielmo M. Tino,G. Trénec,Antonio Vairo,Jacques Vigué,H. R. J. Walters,U. Warring,Sandra Zavatarelli,D. S. Zvezhinskij +52 more
TL;DR: The AEGIS experiment at CERN/AD as mentioned in this paper was the first experiment to directly measure the Earth's gravitational acceleration on antihydrogen with a classical Moire deflectometer.
Journal ArticleDOI
Positron plasma diagnostics and temperature control for antihydrogen production.
M. Amoretti,Claude Amsler,Germano Bonomi,Adam Bouchta,P. D. Bowe,C. Carraro,C. L. Cesar,M. Charlton,Michael Doser,Filippini,Adriano Fontana,M. C. Fujiwara,R. Funakoshi,P. Genova,J. S. Hangst,Ryugo S. Hayano,L. V. Jørgensen,Lagomarsino,R. Landua,D. Lindelöf,Evandro Lodi Rizzini,M. Macri,Niels Madsen,G. Manuzio,P. Montagna,H.S. Pruys,C. Regenfus,Alberto Rotondi,G. Testera,Alessandro Variola,van der Werf Dp +30 more
TL;DR: Nondestructive measurements are discussed, based on a novel, real-time analysis of excited, low-order plasma modes, that provide comprehensive characterization of the positron plasma in the ATHENA antihydrogen apparatus, and plasma length, radius, density, and total particle number are obtained.
Journal ArticleDOI
The ATHENA antihydrogen apparatus
M. Amoretti,Claude Amsler,Germano Bonomi,Adam Bouchta,P. D. Bowe,C. Carraro,M. Charlton,M. J. T. Collier,Michael Doser,V. Filippini,K.S. Fine,Adriano Fontana,M. C. Fujiwara,R. Funakoshi,P. Genova,Adrian Glauser,D. Grögler,J. S. Hangst,Ryugo S. Hayano,Hiroyuki Higaki,M. H. Holzscheiter,W. Joffrain,L. V. Jørgensen,V. Lagomarsino,R. Landua,C. Lenz Cesar,D. Lindelöf,E. Lodi-Rizzini,M. Macri,Niels Madsen,D. Manuzio,G. Manuzio,M. Marchesotti,P. Montagna,H. Pruys,C. Regenfus,Petra Riedler,J. Rochet,Alberto Rotondi,G. Rouleau,G. Testera,D. P. van der Werf,Alessandro Variola,T. L. Watson,T. Yamazaki,Yasunori Yamazaki +45 more
TL;DR: The ATHENA apparatus as discussed by the authors was used to produce and detect the first cold antihydrogen atoms, which was the first attempt to detect the anti-hydrogen atom in a mass spectrometer.
Journal ArticleDOI
High rate production of antihydrogen
M. Amoretti,Claude Amsler,G. Bazzano,G. Bazzano,Germano Bonomi,Adam Bouchta,P. D. Bowe,C. Carraro,C. Carraro,C. L. Cesar,M. Charlton,Michael Doser,V. Filippini,V. Filippini,Adriano Fontana,Adriano Fontana,M. C. Fujiwara,R. Funakoshi,P. Genova,P. Genova,J. S. Hangst,Ryugo S. Hayano,L. V. Jørgensen,V. Lagomarsino,V. Lagomarsino,R. Landua,D. Lindelöf,E. Lodi Rizzini,E. Lodi Rizzini,M. Macri,Niels Madsen,G. Manuzio,G. Manuzio,M. Marchesotti,P. Montagna,P. Montagna,H. Pruys,C. Regenfus,Petra Riedler,Alberto Rotondi,Alberto Rotondi,G. Rouleau,G. Testera,Alessandro Variola,D. P. van der Werf +44 more
TL;DR: In this article, it was shown that antihydrogen production is the dominant process when mixing antiprotons and positrons in the ATHENA apparatus, and that the initial production rate exceeds 300 Hz, decaying to 30 Hz within 10 s.