Cold-Antimatter Physics

The CPT theorem and the Weak Equivalence Principle are foundational principles on which the standard description of the fundamental interactions is based. The validity of such basic principles should be tested using the largest possible sample of physical systems. Cold neutral antimatter (low-energy...

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Autores principales: Amoretti, M., Amsler, Claude, Bonomi, G., Bowe, P.D., Canali, C., Carraro, C., Cesar, C.L., Charlton, M., Doser, M., Fontana, A., Fujiwara, M.C., Funakoshi, R., Genova, P., Hangst, J.S., Hayano, R.S., Johnson, I., Jrgensen, L.V., Kellerbauer, A., Lagomarsino, V., Landua, R., Lodi Rizzini, E., Macri, M., Madsen, N., Manuzio, G., Mitchard, D., Montagna, P., Pruys, H., Regenfus, Christian, Rotondi, A., Testera, G., Variola, A., Venturelli, L., van der Werf, D.P., Yamazaki, Y., Zurlo, N.
Lenguaje:eng
Publicado: 2005
Materias:
Particle Physics - Experiment
Acceso en línea:http://cds.cern.ch/record/828558
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author Amoretti, M.
Amsler, Claude
Bonomi, G.
Bowe, P.D.
Canali, C.
Carraro, C.
Cesar, C.L.
Charlton, M.
Doser, M.
Fontana, A.
Fujiwara, M.C.
Funakoshi, R.
Genova, P.
Hangst, J.S.
Hayano, R.S.
Johnson, I.
Jrgensen, L.V.
Kellerbauer, A.
Lagomarsino, V.
Landua, R.
Lodi Rizzini, E.
Macri, M.
Madsen, N.
Manuzio, G.
Mitchard, D.
Montagna, P.
Pruys, H.
Regenfus, Christian
Rotondi, A.
Testera, G.
Variola, A.
Venturelli, L.
van der Werf, D.P.
Yamazaki, Y.
Zurlo, N.
author_facet Amoretti, M.
Amsler, Claude
Bonomi, G.
Bowe, P.D.
Canali, C.
Carraro, C.
Cesar, C.L.
Charlton, M.
Doser, M.
Fontana, A.
Fujiwara, M.C.
Funakoshi, R.
Genova, P.
Hangst, J.S.
Hayano, R.S.
Johnson, I.
Jrgensen, L.V.
Kellerbauer, A.
Lagomarsino, V.
Landua, R.
Lodi Rizzini, E.
Macri, M.
Madsen, N.
Manuzio, G.
Mitchard, D.
Montagna, P.
Pruys, H.
Regenfus, Christian
Rotondi, A.
Testera, G.
Variola, A.
Venturelli, L.
van der Werf, D.P.
Yamazaki, Y.
Zurlo, N.
author_sort Amoretti, M.
collection CERN
description The CPT theorem and the Weak Equivalence Principle are foundational principles on which the standard description of the fundamental interactions is based. The validity of such basic principles should be tested using the largest possible sample of physical systems. Cold neutral antimatter (low-energy antihydrogen atoms) could be a tool for testing the CPT symmetry with high precision and for a direct measurement of the gravitational acceleration of antimatter. After several years of experimental efforts, the production of low-energy antihydrogen through the recombination of antiprotons and positrons is a well-established experimental reality. An overview of the ATHENA experiment at CERN will be given and the main experimental results on antihydrogen formation will be reviewed.
id cern-828558
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2005
record_format invenio
spelling cern-8285582023-03-14T18:17:26Zhttp://cds.cern.ch/record/828558engAmoretti, M.Amsler, ClaudeBonomi, G.Bowe, P.D.Canali, C.Carraro, C.Cesar, C.L.Charlton, M.Doser, M.Fontana, A.Fujiwara, M.C.Funakoshi, R.Genova, P.Hangst, J.S.Hayano, R.S.Johnson, I.Jrgensen, L.V.Kellerbauer, A.Lagomarsino, V.Landua, R.Lodi Rizzini, E.Macri, M.Madsen, N.Manuzio, G.Mitchard, D.Montagna, P.Pruys, H.Regenfus, ChristianRotondi, A.Testera, G.Variola, A.Venturelli, L.van der Werf, D.P.Yamazaki, Y.Zurlo, N.Cold-Antimatter PhysicsParticle Physics - ExperimentThe CPT theorem and the Weak Equivalence Principle are foundational principles on which the standard description of the fundamental interactions is based. The validity of such basic principles should be tested using the largest possible sample of physical systems. Cold neutral antimatter (low-energy antihydrogen atoms) could be a tool for testing the CPT symmetry with high precision and for a direct measurement of the gravitational acceleration of antimatter. After several years of experimental efforts, the production of low-energy antihydrogen through the recombination of antiprotons and positrons is a well-established experimental reality. An overview of the ATHENA experiment at CERN will be given and the main experimental results on antihydrogen formation will be reviewed.The CPT theorem and the Weak Equivalence Principle are foundational principles on which the standard description of the fundamental interactions is based. The validity of such basic principles should be tested using the largest possible sample of physical systems. Cold neutral antimatter (low-energy antihydrogen atoms) could be a tool for testing the CPT symmetry with high precision and for a direct measurement of the gravitational acceleration of antimatter. After several years of experimental efforts, the production of low-energy antihydrogen through the recombination of antiprotons and positrons is a well-established experimental reality. An overview of the ATHENA experiment at CERN will be given and the main experimental results on antihydrogen formation will be reviewed.hep-ex/0503034oai:cds.cern.ch:8285582005-03-21
spellingShingle Particle Physics - Experiment
Amoretti, M.
Amsler, Claude
Bonomi, G.
Bowe, P.D.
Canali, C.
Carraro, C.
Cesar, C.L.
Charlton, M.
Doser, M.
Fontana, A.
Fujiwara, M.C.
Funakoshi, R.
Genova, P.
Hangst, J.S.
Hayano, R.S.
Johnson, I.
Jrgensen, L.V.
Kellerbauer, A.
Lagomarsino, V.
Landua, R.
Lodi Rizzini, E.
Macri, M.
Madsen, N.
Manuzio, G.
Mitchard, D.
Montagna, P.
Pruys, H.
Regenfus, Christian
Rotondi, A.
Testera, G.
Variola, A.
Venturelli, L.
van der Werf, D.P.
Yamazaki, Y.
Zurlo, N.
Cold-Antimatter Physics
title Cold-Antimatter Physics
title_full Cold-Antimatter Physics
title_fullStr Cold-Antimatter Physics
title_full_unstemmed Cold-Antimatter Physics
title_short Cold-Antimatter Physics
title_sort cold-antimatter physics
topic Particle Physics - Experiment
url http://cds.cern.ch/record/828558
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