Electric-field-dependent g factor for the ground state of lead monofluoride, PbF

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • V. V. Baturo
  • P. M. Rupasinghe
  • T. J. Sears
  • R. J. Mawhorter
  • J. U. Grabow
  • A. N. Petrov

Organisationseinheiten

Externe Organisationen

  • Staatliche Universität Sankt Petersburg
  • RAS - Saint Petersburg Nuclear Physics Institute
  • SUNY Albany
  • Stony Brook University (SBU)
  • Pomona College
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer012811
FachzeitschriftPhysical Review A
Jahrgang104
Ausgabenummer1
PublikationsstatusVeröffentlicht - 22 Juli 2021

Abstract

The electric-field-dependent factor and the electron electric dipole moment (eEDM)-induced Stark splittings for the lowest rotational levels of are calculated. Observed and calculated Zeeman shifts for are found to be in very good agreement. It is shown that the hyperfine sublevels provide a promising system for the eEDM search and related experiments.

ASJC Scopus Sachgebiete

Zitieren

Electric-field-dependent g factor for the ground state of lead monofluoride, PbF. / Baturo, V. V.; Rupasinghe, P. M.; Sears, T. J. et al.
in: Physical Review A, Jahrgang 104, Nr. 1, 012811, 22.07.2021.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Baturo, VV, Rupasinghe, PM, Sears, TJ, Mawhorter, RJ, Grabow, JU & Petrov, AN 2021, 'Electric-field-dependent g factor for the ground state of lead monofluoride, PbF', Physical Review A, Jg. 104, Nr. 1, 012811. https://doi.org/10.1103/PhysRevA.104.012811
Baturo, V. V., Rupasinghe, P. M., Sears, T. J., Mawhorter, R. J., Grabow, J. U., & Petrov, A. N. (2021). Electric-field-dependent g factor for the ground state of lead monofluoride, PbF. Physical Review A, 104(1), Artikel 012811. https://doi.org/10.1103/PhysRevA.104.012811
Baturo VV, Rupasinghe PM, Sears TJ, Mawhorter RJ, Grabow JU, Petrov AN. Electric-field-dependent g factor for the ground state of lead monofluoride, PbF. Physical Review A. 2021 Jul 22;104(1):012811. doi: 10.1103/PhysRevA.104.012811
Baturo, V. V. ; Rupasinghe, P. M. ; Sears, T. J. et al. / Electric-field-dependent g factor for the ground state of lead monofluoride, PbF. in: Physical Review A. 2021 ; Jahrgang 104, Nr. 1.
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abstract = "The electric-field-dependent factor and the electron electric dipole moment (eEDM)-induced Stark splittings for the lowest rotational levels of are calculated. Observed and calculated Zeeman shifts for are found to be in very good agreement. It is shown that the hyperfine sublevels provide a promising system for the eEDM search and related experiments.",
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note = "Funding Information: The authors would like to thank A. L. Baum for his initial preparation of the experimental data and acknowledge Neil Shafer-Ray as a source of inspiration for this series of studies of PbF. Molecular calculations were supported by the Russian Science Foundation Grant No. 18-12-00227. Work by T. J. Sears was supported by the U.S. Department of Energy, Office of Science, Division of Chemical Sciences, Geosciences and Biosciences within the Office of Basic Energy Sciences, under Award No. DE-SC0018950. R.J.M. is grateful for research support provided by a Pomona College Sontag Fellowship and Hirsch Research Initiation Grant. P.M.R. is grateful for research support provided by SUNY-Oswego Office of Research and Sponsored Programs (ORSP). J.-U.G. acknowledges support from the Deutsche Forschungsgemeinschaft (DFG) Grants No. GR 1344/4-1, No. GR 1344/4-2, No. GR 1344/4-3, and No. GR 1344/5-1 and the Land Niedersachsen.",
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AU - Sears, T. J.

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AU - Petrov, A. N.

N1 - Funding Information: The authors would like to thank A. L. Baum for his initial preparation of the experimental data and acknowledge Neil Shafer-Ray as a source of inspiration for this series of studies of PbF. Molecular calculations were supported by the Russian Science Foundation Grant No. 18-12-00227. Work by T. J. Sears was supported by the U.S. Department of Energy, Office of Science, Division of Chemical Sciences, Geosciences and Biosciences within the Office of Basic Energy Sciences, under Award No. DE-SC0018950. R.J.M. is grateful for research support provided by a Pomona College Sontag Fellowship and Hirsch Research Initiation Grant. P.M.R. is grateful for research support provided by SUNY-Oswego Office of Research and Sponsored Programs (ORSP). J.-U.G. acknowledges support from the Deutsche Forschungsgemeinschaft (DFG) Grants No. GR 1344/4-1, No. GR 1344/4-2, No. GR 1344/4-3, and No. GR 1344/5-1 and the Land Niedersachsen.

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