The ASACUSA antihydrogen and hydrogen program: results and prospects

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The goal of the ASACUSA-CUSP collaboration at the Antiproton Decelerator of CERN is to measure the ground-state hyperfine splitting of antihydrogen using an atomic spectroscopy beamline. A milestone was achieved in 2012 through the detection of 80 antihydrogen atoms 2.7 m away from their production...

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Autores principales: Malbrunot, C., Amsler, C., Arguedas Cuendis, S., Breuker, H., Dupre, P., Fleck, M., Higaki, H., Kanai, Y., Kolbinger, B., Kuroda, N., Leali, M., Mäckel, V., Mascagna, V., Massiczek, O., Matsuda, Y., Nagata, Y., Simon, M. C., Spitzer, H., Tajima, M., Ulmer, S., Venturelli, L., Widmann, E., Wiesinger, M., Yamazaki, Y., Zmeskal, J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society Publishing 2018
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5829175/
https://www.ncbi.nlm.nih.gov/pubmed/29459412
http://dx.doi.org/10.1098/rsta.2017.0273
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author Malbrunot, C.
Amsler, C.
Arguedas Cuendis, S.
Breuker, H.
Dupre, P.
Fleck, M.
Higaki, H.
Kanai, Y.
Kolbinger, B.
Kuroda, N.
Leali, M.
Mäckel, V.
Mascagna, V.
Massiczek, O.
Matsuda, Y.
Nagata, Y.
Simon, M. C.
Spitzer, H.
Tajima, M.
Ulmer, S.
Venturelli, L.
Widmann, E.
Wiesinger, M.
Yamazaki, Y.
Zmeskal, J.
author_facet Malbrunot, C.
Amsler, C.
Arguedas Cuendis, S.
Breuker, H.
Dupre, P.
Fleck, M.
Higaki, H.
Kanai, Y.
Kolbinger, B.
Kuroda, N.
Leali, M.
Mäckel, V.
Mascagna, V.
Massiczek, O.
Matsuda, Y.
Nagata, Y.
Simon, M. C.
Spitzer, H.
Tajima, M.
Ulmer, S.
Venturelli, L.
Widmann, E.
Wiesinger, M.
Yamazaki, Y.
Zmeskal, J.
author_sort Malbrunot, C.
collection PubMed
description The goal of the ASACUSA-CUSP collaboration at the Antiproton Decelerator of CERN is to measure the ground-state hyperfine splitting of antihydrogen using an atomic spectroscopy beamline. A milestone was achieved in 2012 through the detection of 80 antihydrogen atoms 2.7 m away from their production region. This was the first observation of ‘cold’ antihydrogen in a magnetic field free region. In parallel to the progress on the antihydrogen production, the spectroscopy beamline was tested with a source of hydrogen. This led to a measurement at a relative precision of 2.7×10(−9) which constitutes the most precise measurement of the hydrogen hyperfine splitting in a beam. Further measurements with an upgraded hydrogen apparatus are motivated by CPT and Lorentz violation tests in the framework of the Standard Model Extension. Unlike for hydrogen, the antihydrogen experiment is complicated by the difficulty of synthesizing enough cold antiatoms in the ground state. The first antihydrogen quantum states scan at the entrance of the spectroscopy apparatus was realized in 2016 and is presented here. The prospects for a ppm measurement are also discussed. This article is part of the Theo Murphy meeting issue ‘Antiproton physics in the ELENA era’.
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spelling pubmed-58291752018-03-02 The ASACUSA antihydrogen and hydrogen program: results and prospects Malbrunot, C. Amsler, C. Arguedas Cuendis, S. Breuker, H. Dupre, P. Fleck, M. Higaki, H. Kanai, Y. Kolbinger, B. Kuroda, N. Leali, M. Mäckel, V. Mascagna, V. Massiczek, O. Matsuda, Y. Nagata, Y. Simon, M. C. Spitzer, H. Tajima, M. Ulmer, S. Venturelli, L. Widmann, E. Wiesinger, M. Yamazaki, Y. Zmeskal, J. Philos Trans A Math Phys Eng Sci Articles The goal of the ASACUSA-CUSP collaboration at the Antiproton Decelerator of CERN is to measure the ground-state hyperfine splitting of antihydrogen using an atomic spectroscopy beamline. A milestone was achieved in 2012 through the detection of 80 antihydrogen atoms 2.7 m away from their production region. This was the first observation of ‘cold’ antihydrogen in a magnetic field free region. In parallel to the progress on the antihydrogen production, the spectroscopy beamline was tested with a source of hydrogen. This led to a measurement at a relative precision of 2.7×10(−9) which constitutes the most precise measurement of the hydrogen hyperfine splitting in a beam. Further measurements with an upgraded hydrogen apparatus are motivated by CPT and Lorentz violation tests in the framework of the Standard Model Extension. Unlike for hydrogen, the antihydrogen experiment is complicated by the difficulty of synthesizing enough cold antiatoms in the ground state. The first antihydrogen quantum states scan at the entrance of the spectroscopy apparatus was realized in 2016 and is presented here. The prospects for a ppm measurement are also discussed. This article is part of the Theo Murphy meeting issue ‘Antiproton physics in the ELENA era’. The Royal Society Publishing 2018-03-28 2018-02-19 /pmc/articles/PMC5829175/ /pubmed/29459412 http://dx.doi.org/10.1098/rsta.2017.0273 Text en © 2018 The Authors. http://creativecommons.org/licenses/by/4.0/ Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.
spellingShingle Articles
Malbrunot, C.
Amsler, C.
Arguedas Cuendis, S.
Breuker, H.
Dupre, P.
Fleck, M.
Higaki, H.
Kanai, Y.
Kolbinger, B.
Kuroda, N.
Leali, M.
Mäckel, V.
Mascagna, V.
Massiczek, O.
Matsuda, Y.
Nagata, Y.
Simon, M. C.
Spitzer, H.
Tajima, M.
Ulmer, S.
Venturelli, L.
Widmann, E.
Wiesinger, M.
Yamazaki, Y.
Zmeskal, J.
The ASACUSA antihydrogen and hydrogen program: results and prospects
title The ASACUSA antihydrogen and hydrogen program: results and prospects
title_full The ASACUSA antihydrogen and hydrogen program: results and prospects
title_fullStr The ASACUSA antihydrogen and hydrogen program: results and prospects
title_full_unstemmed The ASACUSA antihydrogen and hydrogen program: results and prospects
title_short The ASACUSA antihydrogen and hydrogen program: results and prospects
title_sort asacusa antihydrogen and hydrogen program: results and prospects
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5829175/
https://www.ncbi.nlm.nih.gov/pubmed/29459412
http://dx.doi.org/10.1098/rsta.2017.0273
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