Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments

Antihydrogen atoms are produced at CERN in highly excited Rydberg states. However, precision measurements require anti-atoms in ground state. Whereas experiments currently rely on spontaneous emission only, simulations have shown that THz light can be used to stimulate the decay towards ground state...

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Autores principales: Vieille-Grosjean, Mélissa, Dimova, Emiliya, Mazzotta, Zeudi, Comparat, Daniel, Wolz, Tim, Malbrunot, Chloé
Lenguaje:eng
Publicado: 2021
Materias:
physics.atom-ph
Other Fields of Physics
Acceso en línea:https://dx.doi.org/10.1140/epjd/s10053-020-00013-3
http://cds.cern.ch/record/2749996
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author Vieille-Grosjean, Mélissa
Dimova, Emiliya
Mazzotta, Zeudi
Comparat, Daniel
Wolz, Tim
Malbrunot, Chloé
author_facet Vieille-Grosjean, Mélissa
Dimova, Emiliya
Mazzotta, Zeudi
Comparat, Daniel
Wolz, Tim
Malbrunot, Chloé
author_sort Vieille-Grosjean, Mélissa
collection CERN
description Antihydrogen atoms are produced at CERN in highly excited Rydberg states. However, precision measurements require anti-atoms in ground state. Whereas experiments currently rely on spontaneous emission only, simulations have shown that THz light can be used to stimulate the decay towards ground state and thus increase the number of anti-atoms available for measurements. We review different possibilities at hand to generate light in the THz range required for the purpose of stimulated deexcitation. We demonstrate the effect of a blackbody type light source, which however presents drawbacks for this application including strong photoionization. Further, we report on the first THz transitions in a beam of Rydberg caesium atoms induced by photomixers and conclude with the implications of the results for the antihydrogen case.[graphic not available: see fulltext][graphic not available: see fulltext]
id cern-2749996
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2021
record_format invenio
spelling cern-27499962023-01-31T09:39:07Zdoi:10.1140/epjd/s10053-020-00013-3http://cds.cern.ch/record/2749996engVieille-Grosjean, MélissaDimova, EmiliyaMazzotta, ZeudiComparat, DanielWolz, TimMalbrunot, ChloéInduced THz transitions in Rydberg caesium atoms for application in antihydrogen experimentsphysics.atom-phOther Fields of PhysicsAntihydrogen atoms are produced at CERN in highly excited Rydberg states. However, precision measurements require anti-atoms in ground state. Whereas experiments currently rely on spontaneous emission only, simulations have shown that THz light can be used to stimulate the decay towards ground state and thus increase the number of anti-atoms available for measurements. We review different possibilities at hand to generate light in the THz range required for the purpose of stimulated deexcitation. We demonstrate the effect of a blackbody type light source, which however presents drawbacks for this application including strong photoionization. Further, we report on the first THz transitions in a beam of Rydberg caesium atoms induced by photomixers and conclude with the implications of the results for the antihydrogen case.[graphic not available: see fulltext][graphic not available: see fulltext]Antihydrogen atoms are produced at CERN in highly excited Rydberg states. However, precision measurements require anti-atoms in ground state. Whereas experiments currently rely on spontaneous emission only, simulations have shown that THz light can be used to stimulate the decay towards ground state and thus increase the number of anti-atoms available for measurements. We review different possibilities at hand to generate light in the THz range required for the purpose of stimulated deexcitation. We demonstrate the effect of a blackbody type light source, which however presents drawbacks for this application including strong photoionization. Further, we report on the first THz transitions in a beam of Rydberg caesium atoms induced by photomixers and conclude with the implications of the results for the antihydrogen case.arXiv:2101.01047oai:cds.cern.ch:27499962021-01-04
spellingShingle physics.atom-ph
Other Fields of Physics
Vieille-Grosjean, Mélissa
Dimova, Emiliya
Mazzotta, Zeudi
Comparat, Daniel
Wolz, Tim
Malbrunot, Chloé
Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title_full Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title_fullStr Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title_full_unstemmed Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title_short Induced THz transitions in Rydberg caesium atoms for application in antihydrogen experiments
title_sort induced thz transitions in rydberg caesium atoms for application in antihydrogen experiments
topic physics.atom-ph
Other Fields of Physics
url https://dx.doi.org/10.1140/epjd/s10053-020-00013-3
http://cds.cern.ch/record/2749996
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AT dimovaemiliya inducedthztransitionsinrydbergcaesiumatomsforapplicationinantihydrogenexperiments
AT mazzottazeudi inducedthztransitionsinrydbergcaesiumatomsforapplicationinantihydrogenexperiments
AT comparatdaniel inducedthztransitionsinrydbergcaesiumatomsforapplicationinantihydrogenexperiments
AT wolztim inducedthztransitionsinrydbergcaesiumatomsforapplicationinantihydrogenexperiments
AT malbrunotchloe inducedthztransitionsinrydbergcaesiumatomsforapplicationinantihydrogenexperiments

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