BASE—high-precision comparisons of the fundamental properties of protons and antiprotons

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • B. M. Latacz
  • B. P. Arndt
  • B. B. Bauer
  • J. A. Devlin
  • S. R. Erlewein
  • M. Fleck
  • J. I. Jäger
  • M. Schiffelholz
  • G. Umbrazunas
  • E. J. Wursten
  • F. Abbass
  • P. Micke
  • D. Popper
  • M. Wiesinger
  • C. Will
  • H. Yildiz
  • K. Blaum
  • Y. Matsuda
  • A. Mooser
  • C. Ospelkaus
  • W. Quint
  • A. Soter
  • J. Walz
  • Y. Yamazaki
  • C. Smorra
  • S. Ulmer

Organisationseinheiten

Externe Organisationen

  • Ulmer Fundamental Symmetries Laboratory
  • CERN - Europäische Organisation für Kernforschung
  • Max-Planck-Institut für Kernphysik
  • GSI Helmholtzzentrum für Schwerionenforschung GmbH
  • Johannes Gutenberg-Universität Mainz
  • University of Tokyo (UTokyo)
  • ETH Zürich
  • Physikalisch-Technische Bundesanstalt (PTB)
  • Universitätsklinikum Düsseldorf
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer94
FachzeitschriftEuropean Physical Journal D
Jahrgang77
Ausgabenummer6
PublikationsstatusVeröffentlicht - 5 Juni 2023

Abstract

Abstract: The BASE collaboration at the antiproton decelerator/ELENA facility of CERN compares the fundamental properties of protons and antiprotons with ultra-high precision. Using advanced Penning trap systems, we have measured the proton and antiproton magnetic moments with fractional uncertainties of 300 parts in a trillion (p.p.t.) and 1.5 parts in a billion (p.p.b.), respectively. The combined measurements improve the resolution of the previous best test in that sector by more than a factor of 3000. Very recently, we have compared the antiproton/proton charge-to-mass ratios with a fractional precision of 16 p.p.t., which improved the previous best measurement by a factor of 4.3. These results allowed us also to perform a differential matter/antimatter clock comparison test to limits better than 3 %. Our measurements enable us to set limits on 22 coefficients of CPT- and Lorentz-violating standard model extensions (SME) and to search for potentially asymmetric interactions between antimatter and dark matter. In this article, we review some of the recent achievements and outline recent progress towards a planned improved measurement of the antiproton magnetic moment with an at least tenfold improved fractional accuracy. Graphic Abstract: [Figure not available: see fulltext.].

ASJC Scopus Sachgebiete

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BASE—high-precision comparisons of the fundamental properties of protons and antiprotons. / Latacz, B. M.; Arndt, B. P.; Bauer, B. B. et al.
in: European Physical Journal D, Jahrgang 77, Nr. 6, 94, 05.06.2023.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Latacz, BM, Arndt, BP, Bauer, BB, Devlin, JA, Erlewein, SR, Fleck, M, Jäger, JI, Schiffelholz, M, Umbrazunas, G, Wursten, EJ, Abbass, F, Micke, P, Popper, D, Wiesinger, M, Will, C, Yildiz, H, Blaum, K, Matsuda, Y, Mooser, A, Ospelkaus, C, Quint, W, Soter, A, Walz, J, Yamazaki, Y, Smorra, C & Ulmer, S 2023, 'BASE—high-precision comparisons of the fundamental properties of protons and antiprotons', European Physical Journal D, Jg. 77, Nr. 6, 94. https://doi.org/10.1140/epjd/s10053-023-00672-y
Latacz, B. M., Arndt, B. P., Bauer, B. B., Devlin, J. A., Erlewein, S. R., Fleck, M., Jäger, J. I., Schiffelholz, M., Umbrazunas, G., Wursten, E. J., Abbass, F., Micke, P., Popper, D., Wiesinger, M., Will, C., Yildiz, H., Blaum, K., Matsuda, Y., Mooser, A., ... Ulmer, S. (2023). BASE—high-precision comparisons of the fundamental properties of protons and antiprotons. European Physical Journal D, 77(6), Artikel 94. https://doi.org/10.1140/epjd/s10053-023-00672-y
Latacz BM, Arndt BP, Bauer BB, Devlin JA, Erlewein SR, Fleck M et al. BASE—high-precision comparisons of the fundamental properties of protons and antiprotons. European Physical Journal D. 2023 Jun 5;77(6):94. doi: 10.1140/epjd/s10053-023-00672-y
Latacz, B. M. ; Arndt, B. P. ; Bauer, B. B. et al. / BASE—high-precision comparisons of the fundamental properties of protons and antiprotons. in: European Physical Journal D. 2023 ; Jahrgang 77, Nr. 6.
Download
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title = "BASE—high-precision comparisons of the fundamental properties of protons and antiprotons",
abstract = "Abstract: The BASE collaboration at the antiproton decelerator/ELENA facility of CERN compares the fundamental properties of protons and antiprotons with ultra-high precision. Using advanced Penning trap systems, we have measured the proton and antiproton magnetic moments with fractional uncertainties of 300 parts in a trillion (p.p.t.) and 1.5 parts in a billion (p.p.b.), respectively. The combined measurements improve the resolution of the previous best test in that sector by more than a factor of 3000. Very recently, we have compared the antiproton/proton charge-to-mass ratios with a fractional precision of 16 p.p.t., which improved the previous best measurement by a factor of 4.3. These results allowed us also to perform a differential matter/antimatter clock comparison test to limits better than 3 %. Our measurements enable us to set limits on 22 coefficients of CPT- and Lorentz-violating standard model extensions (SME) and to search for potentially asymmetric interactions between antimatter and dark matter. In this article, we review some of the recent achievements and outline recent progress towards a planned improved measurement of the antiproton magnetic moment with an at least tenfold improved fractional accuracy. Graphic Abstract: [Figure not available: see fulltext.].",
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note = "Funding Information: We acknowledge the technical support by CERN, especially the Antiproton Decelerator and ELENA decelerator operation groups, CERN{\textquoteright}s Cryolab team and Engineering Department, and all other CERN groups which provide support to antiproton decelerator experiments. We acknowledge the financial support by RIKEN, the RIKEN EEE pioneering project funding, the RIKEN SPDR and JRA programme, the Max-Planck Society, the Max-Planck IMPRS-QD, the European Union (FunI-832848, STEP-852818), CRC 1227 “DQ-mat” (DFG 274200144), the Cluster of Excellence “Quantum Frontiers” (DFG 390837967), GSI-Darmstadt, Heinrich-Heine University Duesseldorf, the CERN fellowship programme, and the CERN Gentner programme. This work was supported by the Max-Planck, RIKEN, PTB Center for Time, Constants, and Fundamental Symmetries (C-TCFS). ",
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T1 - BASE—high-precision comparisons of the fundamental properties of protons and antiprotons

AU - Latacz, B. M.

AU - Arndt, B. P.

AU - Bauer, B. B.

AU - Devlin, J. A.

AU - Erlewein, S. R.

AU - Fleck, M.

AU - Jäger, J. I.

AU - Schiffelholz, M.

AU - Umbrazunas, G.

AU - Wursten, E. J.

AU - Abbass, F.

AU - Micke, P.

AU - Popper, D.

AU - Wiesinger, M.

AU - Will, C.

AU - Yildiz, H.

AU - Blaum, K.

AU - Matsuda, Y.

AU - Mooser, A.

AU - Ospelkaus, C.

AU - Quint, W.

AU - Soter, A.

AU - Walz, J.

AU - Yamazaki, Y.

AU - Smorra, C.

AU - Ulmer, S.

N1 - Funding Information: We acknowledge the technical support by CERN, especially the Antiproton Decelerator and ELENA decelerator operation groups, CERN’s Cryolab team and Engineering Department, and all other CERN groups which provide support to antiproton decelerator experiments. We acknowledge the financial support by RIKEN, the RIKEN EEE pioneering project funding, the RIKEN SPDR and JRA programme, the Max-Planck Society, the Max-Planck IMPRS-QD, the European Union (FunI-832848, STEP-852818), CRC 1227 “DQ-mat” (DFG 274200144), the Cluster of Excellence “Quantum Frontiers” (DFG 390837967), GSI-Darmstadt, Heinrich-Heine University Duesseldorf, the CERN fellowship programme, and the CERN Gentner programme. This work was supported by the Max-Planck, RIKEN, PTB Center for Time, Constants, and Fundamental Symmetries (C-TCFS).

PY - 2023/6/5

Y1 - 2023/6/5

N2 - Abstract: The BASE collaboration at the antiproton decelerator/ELENA facility of CERN compares the fundamental properties of protons and antiprotons with ultra-high precision. Using advanced Penning trap systems, we have measured the proton and antiproton magnetic moments with fractional uncertainties of 300 parts in a trillion (p.p.t.) and 1.5 parts in a billion (p.p.b.), respectively. The combined measurements improve the resolution of the previous best test in that sector by more than a factor of 3000. Very recently, we have compared the antiproton/proton charge-to-mass ratios with a fractional precision of 16 p.p.t., which improved the previous best measurement by a factor of 4.3. These results allowed us also to perform a differential matter/antimatter clock comparison test to limits better than 3 %. Our measurements enable us to set limits on 22 coefficients of CPT- and Lorentz-violating standard model extensions (SME) and to search for potentially asymmetric interactions between antimatter and dark matter. In this article, we review some of the recent achievements and outline recent progress towards a planned improved measurement of the antiproton magnetic moment with an at least tenfold improved fractional accuracy. Graphic Abstract: [Figure not available: see fulltext.].

AB - Abstract: The BASE collaboration at the antiproton decelerator/ELENA facility of CERN compares the fundamental properties of protons and antiprotons with ultra-high precision. Using advanced Penning trap systems, we have measured the proton and antiproton magnetic moments with fractional uncertainties of 300 parts in a trillion (p.p.t.) and 1.5 parts in a billion (p.p.b.), respectively. The combined measurements improve the resolution of the previous best test in that sector by more than a factor of 3000. Very recently, we have compared the antiproton/proton charge-to-mass ratios with a fractional precision of 16 p.p.t., which improved the previous best measurement by a factor of 4.3. These results allowed us also to perform a differential matter/antimatter clock comparison test to limits better than 3 %. Our measurements enable us to set limits on 22 coefficients of CPT- and Lorentz-violating standard model extensions (SME) and to search for potentially asymmetric interactions between antimatter and dark matter. In this article, we review some of the recent achievements and outline recent progress towards a planned improved measurement of the antiproton magnetic moment with an at least tenfold improved fractional accuracy. Graphic Abstract: [Figure not available: see fulltext.].

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