Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap

Jack A. Devlin; Matthias J. Borchert; Stefan Erlewein; Markus Fleck; James A. Harrington; Barbara Latacz; Jan Warncke; Elise Wursten; Matthew A. Bohman; Andreas H. Mooser; Christian Smorra; Markus Wiesinger; Christian Will; Klaus Blaum; Yasuyuki Matsuda; Christian Ospelkaus; Wolfgang Quint; Jochen Walz; Yasunori Yamazaki; Stefan Ulmer

doi:10.1103/PhysRevLett.126.041301

Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap

Jack A. Devlin^*
, Matthias J. Borchert
, Stefan Erlewein
, Markus Fleck
, James A. Harrington
, Barbara Latacz
, Jan Warncke
, Elise Wursten
, Matthew A. Bohman
, Andreas H. Mooser
, Christian Smorra
, Markus Wiesinger
, Christian Will
, Klaus Blaum
, Yasuyuki Matsuda
, Christian Ospelkaus
, Wolfgang Quint
, Jochen Walz
, Yasunori Yamazaki
, Stefan Ulmer

^*Korrespondierende*r Autor*in für diese Arbeit

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Abstract

We constrain the coupling between axionlike particles (ALPs) and photons, measured with the superconducting resonant detection circuit of a cryogenic Penning trap. By searching the noise spectrum of our fixed-frequency resonant circuit for peaks caused by dark matter ALPs converting into photons in the strong magnetic field of the Penning-trap magnet, we are able to constrain the coupling of ALPs with masses around 2.7906-2.7914 neV/c2 to gaγ<1×10-11 GeV-1. This is more than one order of magnitude lower than the best laboratory haloscope and approximately 5 times lower than the CERN axion solar telescope (CAST), setting limits in a mass and coupling range which is not constrained by astrophysical observations. Our approach can be extended to many other Penning-trap experiments and has the potential to provide broad limits in the low ALP mass range.

Originalsprache	Englisch
Aufsatznummer	041301
Fachzeitschrift	Physical Review Letters
Jahrgang	126
Ausgabenummer	4
DOIs	https://doi.org/10.1103/PhysRevLett.126.041301
Publikationsstatus	Veröffentlicht - 25 Jan. 2021

ASJC Scopus Sachgebiete

Allgemeine Physik und Astronomie

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10.1103/PhysRevLett.126.041301Lizenz: CC BY 4.0

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Verknüpfung zur Publikation in Scopus

DQ-mat: Sonderforschungsbereich 1227/2: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik
Schmidt, P. O. (Projektleiter*in (Principal Investigator))
1 Juli 2020 → 30 Juni 2024
Projekt: Forschung
DQ-mat: Sonderforschungsbereich 1227/1: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik
Schmidt, P. O. (Projektleiter*in (Principal Investigator))
1 Juli 2016 → 30 Juni 2020
Projekt: Forschung

Dieses zitieren

Devlin, J. A., Borchert, M. J., Erlewein, S., Fleck, M., Harrington, J. A., Latacz, B., Warncke, J., Wursten, E., Bohman, M. A., Mooser, A. H., Smorra, C., Wiesinger, M., Will, C., Blaum, K., Matsuda, Y., Ospelkaus, C., Quint, W., Walz, J., Yamazaki, Y., & Ulmer, S. (2021). Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap. Physical Review Letters, 126(4), Artikel 041301. https://doi.org/10.1103/PhysRevLett.126.041301

@article{18e8bfc19e8240d78a5c5e0d2778e5d6,

title = "Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap",

abstract = "We constrain the coupling between axionlike particles (ALPs) and photons, measured with the superconducting resonant detection circuit of a cryogenic Penning trap. By searching the noise spectrum of our fixed-frequency resonant circuit for peaks caused by dark matter ALPs converting into photons in the strong magnetic field of the Penning-trap magnet, we are able to constrain the coupling of ALPs with masses around 2.7906-2.7914 neV/c2 to gaγ<1×10-11 GeV-1. This is more than one order of magnitude lower than the best laboratory haloscope and approximately 5 times lower than the CERN axion solar telescope (CAST), setting limits in a mass and coupling range which is not constrained by astrophysical observations. Our approach can be extended to many other Penning-trap experiments and has the potential to provide broad limits in the low ALP mass range.",

author = "Devlin, \{Jack A.\} and Borchert, \{Matthias J.\} and Stefan Erlewein and Markus Fleck and Harrington, \{James A.\} and Barbara Latacz and Jan Warncke and Elise Wursten and Bohman, \{Matthew A.\} and Mooser, \{Andreas H.\} and Christian Smorra and Markus Wiesinger and Christian Will and Klaus Blaum and Yasuyuki Matsuda and Christian Ospelkaus and Wolfgang Quint and Jochen Walz and Yasunori Yamazaki and Stefan Ulmer",

note = "Funding Information: We acknowledge technical support from the Antiproton Decelerator group, CERN{\textquoteright}s cryolab team, and all other CERN groups which provide support to antiproton decelerator experiments. We acknowledge financial support from the RIKEN Chief Scientist Program, RIKEN Pioneering Project Funding, the RIKEN JRA Program, the Max-Planck Society, the Helmholtz-Gemeinschaft, the DFG through SFB 1227 “DQ-mat,” the European Research Council (ERC) under the European Union{\textquoteright}s Horizon 2020 research and innovation program (Grant Agreements No. 832848 and No. 852818) and the Max-Planck-RIKEN-PTB Center for Time, Constants and Fundamental Symmetries. ",

year = "2021",

month = jan,

day = "25",

doi = "10.1103/PhysRevLett.126.041301",

language = "English",

volume = "126",

journal = "Physical Review Letters",

issn = "0031-9007",

publisher = "American Physical Society",

number = "4",

}

Devlin, JA, Borchert, MJ, Erlewein, S, Fleck, M, Harrington, JA, Latacz, B, Warncke, J, Wursten, E, Bohman, MA, Mooser, AH, Smorra, C, Wiesinger, M, Will, C, Blaum, K, Matsuda, Y, Ospelkaus, C, Quint, W, Walz, J, Yamazaki, Y & Ulmer, S 2021, 'Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap', Physical Review Letters, Jg. 126, Nr. 4, 041301. https://doi.org/10.1103/PhysRevLett.126.041301

Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap. / Devlin, Jack A.; Borchert, Matthias J.; Erlewein, Stefan et al.
in: Physical Review Letters, Jahrgang 126, Nr. 4, 041301, 25.01.2021.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

TY - JOUR

T1 - Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap

AU - Devlin, Jack A.

AU - Borchert, Matthias J.

AU - Erlewein, Stefan

AU - Fleck, Markus

AU - Harrington, James A.

AU - Latacz, Barbara

AU - Warncke, Jan

AU - Wursten, Elise

AU - Bohman, Matthew A.

AU - Mooser, Andreas H.

AU - Smorra, Christian

AU - Wiesinger, Markus

AU - Will, Christian

AU - Blaum, Klaus

AU - Matsuda, Yasuyuki

AU - Ospelkaus, Christian

AU - Quint, Wolfgang

AU - Walz, Jochen

AU - Yamazaki, Yasunori

AU - Ulmer, Stefan

N1 - Funding Information: We acknowledge technical support from the Antiproton Decelerator group, CERN’s cryolab team, and all other CERN groups which provide support to antiproton decelerator experiments. We acknowledge financial support from the RIKEN Chief Scientist Program, RIKEN Pioneering Project Funding, the RIKEN JRA Program, the Max-Planck Society, the Helmholtz-Gemeinschaft, the DFG through SFB 1227 “DQ-mat,” the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (Grant Agreements No. 832848 and No. 852818) and the Max-Planck-RIKEN-PTB Center for Time, Constants and Fundamental Symmetries.

PY - 2021/1/25

Y1 - 2021/1/25

N2 - We constrain the coupling between axionlike particles (ALPs) and photons, measured with the superconducting resonant detection circuit of a cryogenic Penning trap. By searching the noise spectrum of our fixed-frequency resonant circuit for peaks caused by dark matter ALPs converting into photons in the strong magnetic field of the Penning-trap magnet, we are able to constrain the coupling of ALPs with masses around 2.7906-2.7914 neV/c2 to gaγ<1×10-11 GeV-1. This is more than one order of magnitude lower than the best laboratory haloscope and approximately 5 times lower than the CERN axion solar telescope (CAST), setting limits in a mass and coupling range which is not constrained by astrophysical observations. Our approach can be extended to many other Penning-trap experiments and has the potential to provide broad limits in the low ALP mass range.

AB - We constrain the coupling between axionlike particles (ALPs) and photons, measured with the superconducting resonant detection circuit of a cryogenic Penning trap. By searching the noise spectrum of our fixed-frequency resonant circuit for peaks caused by dark matter ALPs converting into photons in the strong magnetic field of the Penning-trap magnet, we are able to constrain the coupling of ALPs with masses around 2.7906-2.7914 neV/c2 to gaγ<1×10-11 GeV-1. This is more than one order of magnitude lower than the best laboratory haloscope and approximately 5 times lower than the CERN axion solar telescope (CAST), setting limits in a mass and coupling range which is not constrained by astrophysical observations. Our approach can be extended to many other Penning-trap experiments and has the potential to provide broad limits in the low ALP mass range.

UR - https://www.scopus.com/pages/publications/85100257356

U2 - 10.1103/PhysRevLett.126.041301

DO - 10.1103/PhysRevLett.126.041301

M3 - Article

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AN - SCOPUS:85100257356

SN - 0031-9007

VL - 126

JO - Physical Review Letters

JF - Physical Review Letters

IS - 4

M1 - 041301

ER -

Constraints on the Coupling between Axionlike Dark Matter and Photons Using an Antiproton Superconducting Tuned Detection Circuit in a Cryogenic Penning Trap

Abstract

ASJC Scopus Sachgebiete

Zugriff auf Dokument

Andere Dateien und Links

Projekte

DQ-mat: Sonderforschungsbereich 1227/2: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik

DQ-mat: Sonderforschungsbereich 1227/1: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik

Dieses zitieren