Spectroscopy of [Formula Presented]Po

N. Fotiades, W. Younes, Jolie Cizewski, D. P. McNabb, K. Y. Ding, C. N. Davids, R. V.F. Janssens, D. Seweryniak, M. P. Carpenter, H. Amro, P. Decrock, P. Reiter, D. Nisius, L. T. Brown, S. Fischer, T. Lauritsen, J. Wauters, C. R. Bingham, M. Huyse, A. Andreyev & 1 others L. F. Conticchio

Research output: Contribution to journalArticle

24 Citations (Scopus)

Abstract

Excitations in [Formula Presented]Po have been studied via in-beam [Formula Presented]-ray spectroscopy following the [Formula Presented]Er + 164 MeV [Formula Presented]S reaction. The experiment was performed at the ATLAS facility using ten Compton-suppressed Ge detectors and the Fragment Mass Analyzer. The [Formula Presented] decay of [Formula Presented]Po has been used to identify prompt [Formula Presented]-ray transitions by means of the recoil decay tagging technique. The first three excited states of [Formula Presented]Po were established. The particle-core model has been successfully used to model these excitations and the quasiparticle random phase approximation has been applied to extract microscopic wave functions of the 2[Formula Presented] states.

Original languageEnglish (US)
Pages (from-to)1724-1729
Number of pages6
JournalPhysical Review C - Nuclear Physics
Volume55
Issue number4
DOIs
StatePublished - Jan 1 1997

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spectroscopy
rays
excitation
decay
marking
analyzers
fragments
wave functions
detectors
approximation

All Science Journal Classification (ASJC) codes

  • Nuclear and High Energy Physics

Cite this

Fotiades, N., Younes, W., Cizewski, J., McNabb, D. P., Ding, K. Y., Davids, C. N., ... Conticchio, L. F. (1997). Spectroscopy of [Formula Presented]Po. Physical Review C - Nuclear Physics, 55(4), 1724-1729. https://doi.org/10.1103/PhysRevC.55.1724
Fotiades, N. ; Younes, W. ; Cizewski, Jolie ; McNabb, D. P. ; Ding, K. Y. ; Davids, C. N. ; Janssens, R. V.F. ; Seweryniak, D. ; Carpenter, M. P. ; Amro, H. ; Decrock, P. ; Reiter, P. ; Nisius, D. ; Brown, L. T. ; Fischer, S. ; Lauritsen, T. ; Wauters, J. ; Bingham, C. R. ; Huyse, M. ; Andreyev, A. ; Conticchio, L. F. / Spectroscopy of [Formula Presented]Po. In: Physical Review C - Nuclear Physics. 1997 ; Vol. 55, No. 4. pp. 1724-1729.
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abstract = "Excitations in [Formula Presented]Po have been studied via in-beam [Formula Presented]-ray spectroscopy following the [Formula Presented]Er + 164 MeV [Formula Presented]S reaction. The experiment was performed at the ATLAS facility using ten Compton-suppressed Ge detectors and the Fragment Mass Analyzer. The [Formula Presented] decay of [Formula Presented]Po has been used to identify prompt [Formula Presented]-ray transitions by means of the recoil decay tagging technique. The first three excited states of [Formula Presented]Po were established. The particle-core model has been successfully used to model these excitations and the quasiparticle random phase approximation has been applied to extract microscopic wave functions of the 2[Formula Presented] states.",
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Fotiades, N, Younes, W, Cizewski, J, McNabb, DP, Ding, KY, Davids, CN, Janssens, RVF, Seweryniak, D, Carpenter, MP, Amro, H, Decrock, P, Reiter, P, Nisius, D, Brown, LT, Fischer, S, Lauritsen, T, Wauters, J, Bingham, CR, Huyse, M, Andreyev, A & Conticchio, LF 1997, 'Spectroscopy of [Formula Presented]Po', Physical Review C - Nuclear Physics, vol. 55, no. 4, pp. 1724-1729. https://doi.org/10.1103/PhysRevC.55.1724

Spectroscopy of [Formula Presented]Po. / Fotiades, N.; Younes, W.; Cizewski, Jolie; McNabb, D. P.; Ding, K. Y.; Davids, C. N.; Janssens, R. V.F.; Seweryniak, D.; Carpenter, M. P.; Amro, H.; Decrock, P.; Reiter, P.; Nisius, D.; Brown, L. T.; Fischer, S.; Lauritsen, T.; Wauters, J.; Bingham, C. R.; Huyse, M.; Andreyev, A.; Conticchio, L. F.

In: Physical Review C - Nuclear Physics, Vol. 55, No. 4, 01.01.1997, p. 1724-1729.

Research output: Contribution to journalArticle

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AU - Fotiades, N.

AU - Younes, W.

AU - Cizewski, Jolie

AU - McNabb, D. P.

AU - Ding, K. Y.

AU - Davids, C. N.

AU - Janssens, R. V.F.

AU - Seweryniak, D.

AU - Carpenter, M. P.

AU - Amro, H.

AU - Decrock, P.

AU - Reiter, P.

AU - Nisius, D.

AU - Brown, L. T.

AU - Fischer, S.

AU - Lauritsen, T.

AU - Wauters, J.

AU - Bingham, C. R.

AU - Huyse, M.

AU - Andreyev, A.

AU - Conticchio, L. F.

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Y1 - 1997/1/1

N2 - Excitations in [Formula Presented]Po have been studied via in-beam [Formula Presented]-ray spectroscopy following the [Formula Presented]Er + 164 MeV [Formula Presented]S reaction. The experiment was performed at the ATLAS facility using ten Compton-suppressed Ge detectors and the Fragment Mass Analyzer. The [Formula Presented] decay of [Formula Presented]Po has been used to identify prompt [Formula Presented]-ray transitions by means of the recoil decay tagging technique. The first three excited states of [Formula Presented]Po were established. The particle-core model has been successfully used to model these excitations and the quasiparticle random phase approximation has been applied to extract microscopic wave functions of the 2[Formula Presented] states.

AB - Excitations in [Formula Presented]Po have been studied via in-beam [Formula Presented]-ray spectroscopy following the [Formula Presented]Er + 164 MeV [Formula Presented]S reaction. The experiment was performed at the ATLAS facility using ten Compton-suppressed Ge detectors and the Fragment Mass Analyzer. The [Formula Presented] decay of [Formula Presented]Po has been used to identify prompt [Formula Presented]-ray transitions by means of the recoil decay tagging technique. The first three excited states of [Formula Presented]Po were established. The particle-core model has been successfully used to model these excitations and the quasiparticle random phase approximation has been applied to extract microscopic wave functions of the 2[Formula Presented] states.

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JF - Physical Review C - Nuclear Physics

SN - 0556-2813

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Fotiades N, Younes W, Cizewski J, McNabb DP, Ding KY, Davids CN et al. Spectroscopy of [Formula Presented]Po. Physical Review C - Nuclear Physics. 1997 Jan 1;55(4):1724-1729. https://doi.org/10.1103/PhysRevC.55.1724