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Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Alexander Wilzewski
  • Lukas J. Spieß
  • Malte Wehrheim
  • Shuying Chen
  • Piet O. Schmidt
  • Agnese Mariotti
  • Elina Fuchs

Organisationseinheiten

Externe Organisationen

  • Physikalisch-Technische Bundesanstalt (PTB)
  • Oxford Ionics Ltd.
  • ETH Zürich
  • Max-Planck-Institut für Kernphysik
  • University of New South Wales (UNSW)
  • Technische Universität Braunschweig

Details

OriginalspracheEnglisch
Aufsatznummer233002
FachzeitschriftPhysical review letters
Jahrgang134
Ausgabenummer23
PublikationsstatusVeröffentlicht - 10 Juni 2025

Abstract

Nonlinearities in King plots (KP) of isotope shifts (IS) can reveal the existence of beyond-standard-model (BSM) interactions that couple electrons and neutrons. However, it is crucial to distinguish higher-order standard model (SM) effects from BSM physics. We measure the IS of the transitions P30→P31 in Ca14+ and S21/2→D5/22 in Ca+ with sub-Hz precision as well as the nuclear mass ratios with relative uncertainties below 4×10-11 for the five stable, even isotopes of calcium (Ca40,42,44,46,48). Combined, these measurements yield a calcium KP nonlinearity with a significance of ∼103σ. Precision calculations show that the nonlinearity cannot be fully accounted for by the expected largest higher-order SM effect, the second-order mass shift, and identify the little-studied nuclear polarization as the only remaining SM contribution that may be large enough to explain it. Despite the observed nonlinearity, we improve existing KP-based constraints on a hypothetical Yukawa interaction for most of the new boson masses between 10 eV/c2 and 107 eV/c2.

ASJC Scopus Sachgebiete

Zitieren

Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties. / Wilzewski, Alexander; Spieß, Lukas J.; Wehrheim, Malte et al.
in: Physical review letters, Jahrgang 134, Nr. 23, 233002, 10.06.2025.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Wilzewski, A, Spieß, LJ, Wehrheim, M, Chen, S, King, SA, Micke, P, Filzinger, M, Steinel, MR, Huntemann, N, Benkler, E, Schmidt, PO, Huber, LI, Flannery, J, Matt, R, Stadler, M, Oswald, R, Schmid, F, Kienzler, D, Home, J, Craik, DPLA, Door, M, Eliseev, S, Filianin, P, Herkenhoff, J, Kromer, K, Blaum, K, Yerokhin, VA, Valuev, IA, Oreshkina, NS, Lyu, C, Banerjee, S, Keitel, CH, Harman, Z, Berengut, JC, Viatkina, A, Gilles, J, Surzhykov, A, Rosner, MK, Crespo López-Urrutia, JR, Richter, J, Mariotti, A & Fuchs, E 2025, 'Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties', Physical review letters, Jg. 134, Nr. 23, 233002. https://doi.org/10.1103/PhysRevLett.134.233002
Wilzewski, A., Spieß, L. J., Wehrheim, M., Chen, S., King, S. A., Micke, P., Filzinger, M., Steinel, M. R., Huntemann, N., Benkler, E., Schmidt, P. O., Huber, L. I., Flannery, J., Matt, R., Stadler, M., Oswald, R., Schmid, F., Kienzler, D., Home, J., ... Fuchs, E. (2025). Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties. Physical review letters, 134(23), Artikel 233002. https://doi.org/10.1103/PhysRevLett.134.233002
Wilzewski A, Spieß LJ, Wehrheim M, Chen S, King SA, Micke P et al. Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties. Physical review letters. 2025 Jun 10;134(23):233002. doi: 10.1103/PhysRevLett.134.233002
Wilzewski, Alexander ; Spieß, Lukas J. ; Wehrheim, Malte et al. / Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties. in: Physical review letters. 2025 ; Jahrgang 134, Nr. 23.
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title = "Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties",
abstract = "Nonlinearities in King plots (KP) of isotope shifts (IS) can reveal the existence of beyond-standard-model (BSM) interactions that couple electrons and neutrons. However, it is crucial to distinguish higher-order standard model (SM) effects from BSM physics. We measure the IS of the transitions P30→P31 in Ca14+ and S21/2→D5/22 in Ca+ with sub-Hz precision as well as the nuclear mass ratios with relative uncertainties below 4×10-11 for the five stable, even isotopes of calcium (Ca40,42,44,46,48). Combined, these measurements yield a calcium KP nonlinearity with a significance of ∼103σ. Precision calculations show that the nonlinearity cannot be fully accounted for by the expected largest higher-order SM effect, the second-order mass shift, and identify the little-studied nuclear polarization as the only remaining SM contribution that may be large enough to explain it. Despite the observed nonlinearity, we improve existing KP-based constraints on a hypothetical Yukawa interaction for most of the new boson masses between 10 eV/c2 and 107 eV/c2.",
author = "Alexander Wilzewski and Spie{\ss}, {Lukas J.} and Malte Wehrheim and Shuying Chen and King, {Steven A.} and Peter Micke and Melina Filzinger and Steinel, {Martin R.} and Nils Huntemann and Erik Benkler and Schmidt, {Piet O.} and Huber, {Luca I.} and Jeremy Flannery and Roland Matt and Martin Stadler and Robin Oswald and Fabian Schmid and Daniel Kienzler and Jonathan Home and Craik, {Diana P.L.Aude} and Menno Door and Sergey Eliseev and Pavel Filianin and Jost Herkenhoff and Kathrin Kromer and Klaus Blaum and Yerokhin, {Vladimir A.} and Valuev, {Igor A.} and Oreshkina, {Natalia S.} and Chunhai Lyu and Sreya Banerjee and Keitel, {Christoph H.} and Zolt{\'a}n Harman and Berengut, {Julian C.} and Anna Viatkina and Jan Gilles and Andrey Surzhykov and Rosner, {Michael K.} and {Crespo L{\'o}pez-Urrutia}, {Jos{\'e} R.} and Jan Richter and Agnese Mariotti and Elina Fuchs",
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TY - JOUR

T1 - Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties

AU - Wilzewski, Alexander

AU - Spieß, Lukas J.

AU - Wehrheim, Malte

AU - Chen, Shuying

AU - King, Steven A.

AU - Micke, Peter

AU - Filzinger, Melina

AU - Steinel, Martin R.

AU - Huntemann, Nils

AU - Benkler, Erik

AU - Schmidt, Piet O.

AU - Huber, Luca I.

AU - Flannery, Jeremy

AU - Matt, Roland

AU - Stadler, Martin

AU - Oswald, Robin

AU - Schmid, Fabian

AU - Kienzler, Daniel

AU - Home, Jonathan

AU - Craik, Diana P.L.Aude

AU - Door, Menno

AU - Eliseev, Sergey

AU - Filianin, Pavel

AU - Herkenhoff, Jost

AU - Kromer, Kathrin

AU - Blaum, Klaus

AU - Yerokhin, Vladimir A.

AU - Valuev, Igor A.

AU - Oreshkina, Natalia S.

AU - Lyu, Chunhai

AU - Banerjee, Sreya

AU - Keitel, Christoph H.

AU - Harman, Zoltán

AU - Berengut, Julian C.

AU - Viatkina, Anna

AU - Gilles, Jan

AU - Surzhykov, Andrey

AU - Rosner, Michael K.

AU - Crespo López-Urrutia, José R.

AU - Richter, Jan

AU - Mariotti, Agnese

AU - Fuchs, Elina

N1 - Publisher Copyright: © 2025 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the "https://creativecommons.org/licenses/by/4.0/"Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

PY - 2025/6/10

Y1 - 2025/6/10

N2 - Nonlinearities in King plots (KP) of isotope shifts (IS) can reveal the existence of beyond-standard-model (BSM) interactions that couple electrons and neutrons. However, it is crucial to distinguish higher-order standard model (SM) effects from BSM physics. We measure the IS of the transitions P30→P31 in Ca14+ and S21/2→D5/22 in Ca+ with sub-Hz precision as well as the nuclear mass ratios with relative uncertainties below 4×10-11 for the five stable, even isotopes of calcium (Ca40,42,44,46,48). Combined, these measurements yield a calcium KP nonlinearity with a significance of ∼103σ. Precision calculations show that the nonlinearity cannot be fully accounted for by the expected largest higher-order SM effect, the second-order mass shift, and identify the little-studied nuclear polarization as the only remaining SM contribution that may be large enough to explain it. Despite the observed nonlinearity, we improve existing KP-based constraints on a hypothetical Yukawa interaction for most of the new boson masses between 10 eV/c2 and 107 eV/c2.

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