Systematic measurements of the bohr-weisskpf effect at isolde

H. T. Duong, J. Pinard, C. Ekström, M. Gustafsson, I. Lindgren, T. Nilsson, J. Persson, T. T. Inamura, P. Juncar, S. Matsuki, T. Murayama, R. Neugart, J. L. Vilalle, M. Pellarin, S. Penselin, I. Ragnarsson, O. Redi, H. Stroke

    Research output: Contribution to journalArticle

    Abstract

    The hyperfine anomaly gives an insight into the coupling of spin and orbital magnetic moments in the nucleus. More precisely, the nuclear magnetization is expressible through the nuclear wave functions with which is tested not only the magnetic moment operator, but also the tensor product [s×C2]1. The experiment can then be expected to be of value in testing the nuclear structure theory. The greatest value of these measurements is gained when these are made systematically over a large number of isotopes. We propose to initiate a program at ISOLDE to measure the hyperfine anomaly systematically in the heavy alkali elements. The experimental setup to achieve, in particular, a precise measurement of the nuclear g-factor is presented and the results on atomic beams of39K are discussed.

    Original languageEnglish (US)
    Pages (from-to)59-66
    Number of pages8
    JournalHyperfine Interactions
    Volume74
    Issue number1-4
    DOIs
    StatePublished - Oct 1992

    Fingerprint

    Magnetic moments
    magnetic moments
    anomalies
    Atomic beams
    atomic beams
    Alkalies
    nuclear structure
    Wave functions
    Isotopes
    Tensors
    alkalies
    Magnetization
    isotopes
    wave functions
    tensors
    operators
    orbitals
    magnetization
    nuclei
    Testing

    ASJC Scopus subject areas

    • Atomic and Molecular Physics, and Optics
    • Nuclear and High Energy Physics
    • Condensed Matter Physics
    • Physics and Astronomy(all)
    • Electronic, Optical and Magnetic Materials

    Cite this

    Duong, H. T., Pinard, J., Ekström, C., Gustafsson, M., Lindgren, I., Nilsson, T., ... Stroke, H. (1992). Systematic measurements of the bohr-weisskpf effect at isolde. Hyperfine Interactions, 74(1-4), 59-66. https://doi.org/10.1007/BF02398617

    Systematic measurements of the bohr-weisskpf effect at isolde. / Duong, H. T.; Pinard, J.; Ekström, C.; Gustafsson, M.; Lindgren, I.; Nilsson, T.; Persson, J.; Inamura, T. T.; Juncar, P.; Matsuki, S.; Murayama, T.; Neugart, R.; Vilalle, J. L.; Pellarin, M.; Penselin, S.; Ragnarsson, I.; Redi, O.; Stroke, H.

    In: Hyperfine Interactions, Vol. 74, No. 1-4, 10.1992, p. 59-66.

    Research output: Contribution to journalArticle

    Duong, HT, Pinard, J, Ekström, C, Gustafsson, M, Lindgren, I, Nilsson, T, Persson, J, Inamura, TT, Juncar, P, Matsuki, S, Murayama, T, Neugart, R, Vilalle, JL, Pellarin, M, Penselin, S, Ragnarsson, I, Redi, O & Stroke, H 1992, 'Systematic measurements of the bohr-weisskpf effect at isolde', Hyperfine Interactions, vol. 74, no. 1-4, pp. 59-66. https://doi.org/10.1007/BF02398617
    Duong HT, Pinard J, Ekström C, Gustafsson M, Lindgren I, Nilsson T et al. Systematic measurements of the bohr-weisskpf effect at isolde. Hyperfine Interactions. 1992 Oct;74(1-4):59-66. https://doi.org/10.1007/BF02398617
    Duong, H. T. ; Pinard, J. ; Ekström, C. ; Gustafsson, M. ; Lindgren, I. ; Nilsson, T. ; Persson, J. ; Inamura, T. T. ; Juncar, P. ; Matsuki, S. ; Murayama, T. ; Neugart, R. ; Vilalle, J. L. ; Pellarin, M. ; Penselin, S. ; Ragnarsson, I. ; Redi, O. ; Stroke, H. / Systematic measurements of the bohr-weisskpf effect at isolde. In: Hyperfine Interactions. 1992 ; Vol. 74, No. 1-4. pp. 59-66.
    @article{51a31df667e1483c8c4cc8180965d4a2,
    title = "Systematic measurements of the bohr-weisskpf effect at isolde",
    abstract = "The hyperfine anomaly gives an insight into the coupling of spin and orbital magnetic moments in the nucleus. More precisely, the nuclear magnetization is expressible through the nuclear wave functions with which is tested not only the magnetic moment operator, but also the tensor product [s×C2]1. The experiment can then be expected to be of value in testing the nuclear structure theory. The greatest value of these measurements is gained when these are made systematically over a large number of isotopes. We propose to initiate a program at ISOLDE to measure the hyperfine anomaly systematically in the heavy alkali elements. The experimental setup to achieve, in particular, a precise measurement of the nuclear g-factor is presented and the results on atomic beams of39K are discussed.",
    author = "Duong, {H. T.} and J. Pinard and C. Ekstr{\"o}m and M. Gustafsson and I. Lindgren and T. Nilsson and J. Persson and Inamura, {T. T.} and P. Juncar and S. Matsuki and T. Murayama and R. Neugart and Vilalle, {J. L.} and M. Pellarin and S. Penselin and I. Ragnarsson and O. Redi and H. Stroke",
    year = "1992",
    month = "10",
    doi = "10.1007/BF02398617",
    language = "English (US)",
    volume = "74",
    pages = "59--66",
    journal = "Hyperfine Interaction",
    issn = "0304-3843",
    publisher = "Springer Netherlands",
    number = "1-4",

    }

    TY - JOUR

    T1 - Systematic measurements of the bohr-weisskpf effect at isolde

    AU - Duong, H. T.

    AU - Pinard, J.

    AU - Ekström, C.

    AU - Gustafsson, M.

    AU - Lindgren, I.

    AU - Nilsson, T.

    AU - Persson, J.

    AU - Inamura, T. T.

    AU - Juncar, P.

    AU - Matsuki, S.

    AU - Murayama, T.

    AU - Neugart, R.

    AU - Vilalle, J. L.

    AU - Pellarin, M.

    AU - Penselin, S.

    AU - Ragnarsson, I.

    AU - Redi, O.

    AU - Stroke, H.

    PY - 1992/10

    Y1 - 1992/10

    N2 - The hyperfine anomaly gives an insight into the coupling of spin and orbital magnetic moments in the nucleus. More precisely, the nuclear magnetization is expressible through the nuclear wave functions with which is tested not only the magnetic moment operator, but also the tensor product [s×C2]1. The experiment can then be expected to be of value in testing the nuclear structure theory. The greatest value of these measurements is gained when these are made systematically over a large number of isotopes. We propose to initiate a program at ISOLDE to measure the hyperfine anomaly systematically in the heavy alkali elements. The experimental setup to achieve, in particular, a precise measurement of the nuclear g-factor is presented and the results on atomic beams of39K are discussed.

    AB - The hyperfine anomaly gives an insight into the coupling of spin and orbital magnetic moments in the nucleus. More precisely, the nuclear magnetization is expressible through the nuclear wave functions with which is tested not only the magnetic moment operator, but also the tensor product [s×C2]1. The experiment can then be expected to be of value in testing the nuclear structure theory. The greatest value of these measurements is gained when these are made systematically over a large number of isotopes. We propose to initiate a program at ISOLDE to measure the hyperfine anomaly systematically in the heavy alkali elements. The experimental setup to achieve, in particular, a precise measurement of the nuclear g-factor is presented and the results on atomic beams of39K are discussed.

    UR - http://www.scopus.com/inward/record.url?scp=34249834591&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=34249834591&partnerID=8YFLogxK

    U2 - 10.1007/BF02398617

    DO - 10.1007/BF02398617

    M3 - Article

    AN - SCOPUS:34249834591

    VL - 74

    SP - 59

    EP - 66

    JO - Hyperfine Interaction

    JF - Hyperfine Interaction

    SN - 0304-3843

    IS - 1-4

    ER -