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Confinement of antihydrogen for 1000 seconds
Atoms made of a particle and an antiparticle are unstable, usually surviving less than a microsecond. Antihydrogen, made entirely of antiparticles, is believed to be stable, and it is this longevity that holds the promise of precision studies of matter-antimatter symmetry. We have recently demonstra...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2011
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1038/nphys2025 http://cds.cern.ch/record/1347171 |
| _version_ | 1780922232098258944 |
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| author | Andresen, G.B. Ashkezari, M.D. Baquero-Ruiz, M. Bertsche, W. Bowe, P.D. Butler, E. Cesar, C.L. Charlton, M. Deller, A. Eriksson, S. Fajans, J. Friesen, T. Fujiwara, M.C. Gill, D.R. Gutierrez, A. Hangst, J.S. Hardy, W.N. Hayano, R.S. Hayden, M.E. Humphries, A.J. Hydomako, R. Jonsell, S. Kemp, S.L. Kurchaninov, L. Madsen, N. Menary, S. Nolan, P. Olchanski, K. Olin, A. Pusa, P. Rasmussen, C.O. Robicheaux, F. Sarid, E. Silveira, D.M. So, C. Storey, J.W. Thompson, R.I. van der Werf, D.P. Wurtele, J.S. Yamazaki, Y. |
| author_facet | Andresen, G.B. Ashkezari, M.D. Baquero-Ruiz, M. Bertsche, W. Bowe, P.D. Butler, E. Cesar, C.L. Charlton, M. Deller, A. Eriksson, S. Fajans, J. Friesen, T. Fujiwara, M.C. Gill, D.R. Gutierrez, A. Hangst, J.S. Hardy, W.N. Hayano, R.S. Hayden, M.E. Humphries, A.J. Hydomako, R. Jonsell, S. Kemp, S.L. Kurchaninov, L. Madsen, N. Menary, S. Nolan, P. Olchanski, K. Olin, A. Pusa, P. Rasmussen, C.O. Robicheaux, F. Sarid, E. Silveira, D.M. So, C. Storey, J.W. Thompson, R.I. van der Werf, D.P. Wurtele, J.S. Yamazaki, Y. |
| author_sort | Andresen, G.B. |
| collection | CERN |
| description | Atoms made of a particle and an antiparticle are unstable, usually surviving less than a microsecond. Antihydrogen, made entirely of antiparticles, is believed to be stable, and it is this longevity that holds the promise of precision studies of matter-antimatter symmetry. We have recently demonstrated trapping of antihydrogen atoms by releasing them after a confinement time of 172 ms. A critical question for future studies is: how long can anti-atoms be trapped? Here we report the observation of anti-atom confinement for 1000 s, extending our earlier results by nearly four orders of magnitude. Our calculations indicate that most of the trapped anti-atoms reach the ground state. Further, we report the first measurement of the energy distribution of trapped antihydrogen which, coupled with detailed comparisons with simulations, provides a key tool for the systematic investigation of trapping dynamics. These advances open up a range of experimental possibilities, including precision studies of CPT symmetry and cooling to temperatures where gravitational effects could become apparent. |
| id | cern-1347171 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2011 |
| record_format | invenio |
| spelling | cern-13471712021-08-07T19:46:21Zdoi:10.1038/nphys2025http://cds.cern.ch/record/1347171engAndresen, G.B.Ashkezari, M.D.Baquero-Ruiz, M.Bertsche, W.Bowe, P.D.Butler, E.Cesar, C.L.Charlton, M.Deller, A.Eriksson, S.Fajans, J.Friesen, T.Fujiwara, M.C.Gill, D.R.Gutierrez, A.Hangst, J.S.Hardy, W.N.Hayano, R.S.Hayden, M.E.Humphries, A.J.Hydomako, R.Jonsell, S.Kemp, S.L.Kurchaninov, L.Madsen, N.Menary, S.Nolan, P.Olchanski, K.Olin, A.Pusa, P.Rasmussen, C.O.Robicheaux, F.Sarid, E.Silveira, D.M.So, C.Storey, J.W.Thompson, R.I.van der Werf, D.P.Wurtele, J.S.Yamazaki, Y.Confinement of antihydrogen for 1000 secondsOther Fields of PhysicsAtoms made of a particle and an antiparticle are unstable, usually surviving less than a microsecond. Antihydrogen, made entirely of antiparticles, is believed to be stable, and it is this longevity that holds the promise of precision studies of matter-antimatter symmetry. We have recently demonstrated trapping of antihydrogen atoms by releasing them after a confinement time of 172 ms. A critical question for future studies is: how long can anti-atoms be trapped? Here we report the observation of anti-atom confinement for 1000 s, extending our earlier results by nearly four orders of magnitude. Our calculations indicate that most of the trapped anti-atoms reach the ground state. Further, we report the first measurement of the energy distribution of trapped antihydrogen which, coupled with detailed comparisons with simulations, provides a key tool for the systematic investigation of trapping dynamics. These advances open up a range of experimental possibilities, including precision studies of CPT symmetry and cooling to temperatures where gravitational effects could become apparent.Atoms made of a particle and an antiparticle are unstable, usually surviving less than a microsecond. Antihydrogen, made entirely of antiparticles, is believed to be stable, and it is this longevity that holds the promise of precision studies of matter-antimatter symmetry. We have recently demonstrated trapping of antihydrogen atoms by releasing them after a confinement time of 172 ms. A critical question for future studies is: how long can anti-atoms be trapped? Here we report the observation of anti-atom confinement for 1000 s, extending our earlier results by nearly four orders of magnitude. Our calculations indicate that most of the trapped anti-atoms reach the ground state. Further, we report the first measurement of the energy distribution of trapped antihydrogen which, coupled with detailed comparisons with simulations, provides a key tool for the systematic investigation of trapping dynamics. These advances open up a range of experimental possibilities, including precision studies of CPT symmetry and cooling to temperatures where gravitational effects could become apparent.arXiv:1104.4982TRI-PP-11-02TRI-PP-11-02oai:cds.cern.ch:13471712011-04-27 |
| spellingShingle | Other Fields of Physics Andresen, G.B. Ashkezari, M.D. Baquero-Ruiz, M. Bertsche, W. Bowe, P.D. Butler, E. Cesar, C.L. Charlton, M. Deller, A. Eriksson, S. Fajans, J. Friesen, T. Fujiwara, M.C. Gill, D.R. Gutierrez, A. Hangst, J.S. Hardy, W.N. Hayano, R.S. Hayden, M.E. Humphries, A.J. Hydomako, R. Jonsell, S. Kemp, S.L. Kurchaninov, L. Madsen, N. Menary, S. Nolan, P. Olchanski, K. Olin, A. Pusa, P. Rasmussen, C.O. Robicheaux, F. Sarid, E. Silveira, D.M. So, C. Storey, J.W. Thompson, R.I. van der Werf, D.P. Wurtele, J.S. Yamazaki, Y. Confinement of antihydrogen for 1000 seconds |
| title | Confinement of antihydrogen for 1000 seconds |
| title_full | Confinement of antihydrogen for 1000 seconds |
| title_fullStr | Confinement of antihydrogen for 1000 seconds |
| title_full_unstemmed | Confinement of antihydrogen for 1000 seconds |
| title_short | Confinement of antihydrogen for 1000 seconds |
| title_sort | confinement of antihydrogen for 1000 seconds |
| topic | Other Fields of Physics |
| url | https://dx.doi.org/10.1038/nphys2025 http://cds.cern.ch/record/1347171 |
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