Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen

Bibliographic Details
Main Author: Nuber, Jonas
Publication Date: 2023
Other Authors: Adamczak, A., Abdou Ahmed, M., Affolter, L., Amaro, F. D., Amaro, Pedro, Antognini, A., Carvalho, P., Chang, Y. -H., Chen, T. -L., Chen, W. -L., Fernandes, L. M. P., Ferro, M., Goeldi, D., Graf, Thomas, Guerra, M., Hänsch, T. W., Henriques, C. A. O., Hildebrandt, M., Indelicato, P., Kara, O., Kirch, K., Knecht, A., Kottmann, F., Liu, Y.-W., Machado, J. S., Marszalek, M., Mano, R.D.P., Monteiro, C. M. B., Nez, F., Ouf, A., Paul, N., Pohl, R., Rapisarda, E., Santos, J. M. F. dos, Santos, J.P., Silva, P. A. O. C., Sinkunaite, L., Shy, J. -T., Schuhmann, K., Rajamohanan, S., Soter, A., Sustelo, L., Taqqu, David, Wang, L. -B., Wauters, F., Yzombard, P., Zeyen, M., Zhang, J.
Format: Article
Language: eng
Source: Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
Download full: https://hdl.handle.net/10316/114561
https://doi.org/10.21468/SciPostPhysCore.6.3.057
Summary: The CREMA collaboration is pursuing a measurement of the ground-state hyperfine splitting (HFS) in muonic hydrogen (μp) with 1 ppm accuracy by means of pulsed laser spectroscopy. In the proposed experiment, the μp atom is excited by a laser pulse from the singlet to the triplet hyperfine sub-levels, and is quenched back to the singlet state by an inelastic collision with a H2 molecule. The resulting increase of kinetic energy after this cycle modifies the μp atom diffusion in the hydrogen gas and the arrival time of the μp atoms at the target walls. This laser-induced modification of the arrival times is used to expose the atomic transition. In this paper we present the simulation of the μp diffusion in the H2 gas which is at the core of the experimental scheme. These simulations have been implemented with the Geant4 framework by introducing various low-energy processes including the motion of the H2 molecules, i.e. the effects related with the hydrogen target temperature. The simulations have been used to optimize the hydrogen target parameters (pressure, temperatures and thickness) and to estimate signal and background rates. These rates allow to estimate the maximum time needed to find the resonance and the statistical accuracy of the spectroscopy experiment.
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spelling Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogenThe CREMA collaboration is pursuing a measurement of the ground-state hyperfine splitting (HFS) in muonic hydrogen (μp) with 1 ppm accuracy by means of pulsed laser spectroscopy. In the proposed experiment, the μp atom is excited by a laser pulse from the singlet to the triplet hyperfine sub-levels, and is quenched back to the singlet state by an inelastic collision with a H2 molecule. The resulting increase of kinetic energy after this cycle modifies the μp atom diffusion in the hydrogen gas and the arrival time of the μp atoms at the target walls. This laser-induced modification of the arrival times is used to expose the atomic transition. In this paper we present the simulation of the μp diffusion in the H2 gas which is at the core of the experimental scheme. These simulations have been implemented with the Geant4 framework by introducing various low-energy processes including the motion of the H2 molecules, i.e. the effects related with the hydrogen target temperature. The simulations have been used to optimize the hydrogen target parameters (pressure, temperatures and thickness) and to estimate signal and background rates. These rates allow to estimate the maximum time needed to find the resonance and the statistical accuracy of the spectroscopy experiment.We acknowledge the support of the following grants: FCT - Fundação para a Ciência e a Tecnologia (Portugal) through national funds in the frame of projects PTDC/FIS-AQM/29611/2017 and UID/04559/2020 (LIBPhys); Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany’s Excellence Initiative EXC 1098 PRISMA (194673446); Excellence Strategy EXC PRISMA+ (390831469) and DFG/ANR Project LASIMUS (DFG Grant Agreement 407008443); The French National Research Agency with project ANR-18-CE92-0030-02; The PESSOA Huber Curien Program 2022, Number 47863UE; The European Research Council (ERC) through CoG. #725039; and the Swiss National Science Foundation through the projects SNF 200021_165854 and SNF 200020_197052.Institute of Economic Research, Nicolaus Copernicus University2023info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlehttps://hdl.handle.net/10316/114561https://hdl.handle.net/10316/114561https://doi.org/10.21468/SciPostPhysCore.6.3.057eng2666-9366Nuber, JonasAdamczak, A.Abdou Ahmed, M.Affolter, L.Amaro, F. D.Amaro, PedroAntognini, A.Carvalho, P.Chang, Y. -H.Chen, T. -L.Chen, W. -L.Fernandes, L. M. P.Ferro, M.Goeldi, D.Graf, ThomasGuerra, M.Hänsch, T. W.Henriques, C. A. O.Hildebrandt, M.Indelicato, P.Kara, O.Kirch, K.Knecht, A.Kottmann, F.Liu, Y.-W.Machado, J. S.Marszalek, M.Mano, R.D.P.Monteiro, C. M. B.Nez, F.Ouf, A.Paul, N.Pohl, R.Rapisarda, E.Santos, J. M. F. dosSantos, J.P.Silva, P. A. O. C.Sinkunaite, L.Shy, J. -T.Schuhmann, K.Rajamohanan, S.Soter, A.Sustelo, L.Taqqu, DavidWang, L. -B.Wauters, F.Yzombard, P.Zeyen, M.Zhang, J.info:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-09-24T15:44:57Zoai:estudogeral.uc.pt:10316/114561Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-29T06:07:43.448609Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse
dc.title.none.fl_str_mv Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
title Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
spellingShingle Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
Nuber, Jonas
title_short Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
title_full Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
title_fullStr Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
title_full_unstemmed Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
title_sort Diffusion of muonic hydrogen in hydrogen gas and the measurement of the 1s hyperfine splitting of muonic hydrogen
author Nuber, Jonas
author_facet Nuber, Jonas
Adamczak, A.
Abdou Ahmed, M.
Affolter, L.
Amaro, F. D.
Amaro, Pedro
Antognini, A.
Carvalho, P.
Chang, Y. -H.
Chen, T. -L.
Chen, W. -L.
Fernandes, L. M. P.
Ferro, M.
Goeldi, D.
Graf, Thomas
Guerra, M.
Hänsch, T. W.
Henriques, C. A. O.
Hildebrandt, M.
Indelicato, P.
Kara, O.
Kirch, K.
Knecht, A.
Kottmann, F.
Liu, Y.-W.
Machado, J. S.
Marszalek, M.
Mano, R.D.P.
Monteiro, C. M. B.
Nez, F.
Ouf, A.
Paul, N.
Pohl, R.
Rapisarda, E.
Santos, J. M. F. dos
Santos, J.P.
Silva, P. A. O. C.
Sinkunaite, L.
Shy, J. -T.
Schuhmann, K.
Rajamohanan, S.
Soter, A.
Sustelo, L.
Taqqu, David
Wang, L. -B.
Wauters, F.
Yzombard, P.
Zeyen, M.
Zhang, J.
author_role author
author2 Adamczak, A.
Abdou Ahmed, M.
Affolter, L.
Amaro, F. D.
Amaro, Pedro
Antognini, A.
Carvalho, P.
Chang, Y. -H.
Chen, T. -L.
Chen, W. -L.
Fernandes, L. M. P.
Ferro, M.
Goeldi, D.
Graf, Thomas
Guerra, M.
Hänsch, T. W.
Henriques, C. A. O.
Hildebrandt, M.
Indelicato, P.
Kara, O.
Kirch, K.
Knecht, A.
Kottmann, F.
Liu, Y.-W.
Machado, J. S.
Marszalek, M.
Mano, R.D.P.
Monteiro, C. M. B.
Nez, F.
Ouf, A.
Paul, N.
Pohl, R.
Rapisarda, E.
Santos, J. M. F. dos
Santos, J.P.
Silva, P. A. O. C.
Sinkunaite, L.
Shy, J. -T.
Schuhmann, K.
Rajamohanan, S.
Soter, A.
Sustelo, L.
Taqqu, David
Wang, L. -B.
Wauters, F.
Yzombard, P.
Zeyen, M.
Zhang, J.
author2_role author
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author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
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author
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author
dc.contributor.author.fl_str_mv Nuber, Jonas
Adamczak, A.
Abdou Ahmed, M.
Affolter, L.
Amaro, F. D.
Amaro, Pedro
Antognini, A.
Carvalho, P.
Chang, Y. -H.
Chen, T. -L.
Chen, W. -L.
Fernandes, L. M. P.
Ferro, M.
Goeldi, D.
Graf, Thomas
Guerra, M.
Hänsch, T. W.
Henriques, C. A. O.
Hildebrandt, M.
Indelicato, P.
Kara, O.
Kirch, K.
Knecht, A.
Kottmann, F.
Liu, Y.-W.
Machado, J. S.
Marszalek, M.
Mano, R.D.P.
Monteiro, C. M. B.
Nez, F.
Ouf, A.
Paul, N.
Pohl, R.
Rapisarda, E.
Santos, J. M. F. dos
Santos, J.P.
Silva, P. A. O. C.
Sinkunaite, L.
Shy, J. -T.
Schuhmann, K.
Rajamohanan, S.
Soter, A.
Sustelo, L.
Taqqu, David
Wang, L. -B.
Wauters, F.
Yzombard, P.
Zeyen, M.
Zhang, J.
description The CREMA collaboration is pursuing a measurement of the ground-state hyperfine splitting (HFS) in muonic hydrogen (μp) with 1 ppm accuracy by means of pulsed laser spectroscopy. In the proposed experiment, the μp atom is excited by a laser pulse from the singlet to the triplet hyperfine sub-levels, and is quenched back to the singlet state by an inelastic collision with a H2 molecule. The resulting increase of kinetic energy after this cycle modifies the μp atom diffusion in the hydrogen gas and the arrival time of the μp atoms at the target walls. This laser-induced modification of the arrival times is used to expose the atomic transition. In this paper we present the simulation of the μp diffusion in the H2 gas which is at the core of the experimental scheme. These simulations have been implemented with the Geant4 framework by introducing various low-energy processes including the motion of the H2 molecules, i.e. the effects related with the hydrogen target temperature. The simulations have been used to optimize the hydrogen target parameters (pressure, temperatures and thickness) and to estimate signal and background rates. These rates allow to estimate the maximum time needed to find the resonance and the statistical accuracy of the spectroscopy experiment.
publishDate 2023
dc.date.none.fl_str_mv 2023
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://hdl.handle.net/10316/114561
https://hdl.handle.net/10316/114561
https://doi.org/10.21468/SciPostPhysCore.6.3.057
url https://hdl.handle.net/10316/114561
https://doi.org/10.21468/SciPostPhysCore.6.3.057
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv 2666-9366
dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
eu_rights_str_mv openAccess
dc.publisher.none.fl_str_mv Institute of Economic Research, Nicolaus Copernicus University
publisher.none.fl_str_mv Institute of Economic Research, Nicolaus Copernicus University
dc.source.none.fl_str_mv reponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologia
instacron:RCAAP
instname_str FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologia
instacron_str RCAAP
institution RCAAP
reponame_str Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
collection Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
repository.name.fl_str_mv Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologia
repository.mail.fl_str_mv info@rcaap.pt
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