In-beam γ -ray and electron spectroscopy of $^{249,251}$Md

The odd-Z Md251 nucleus was studied using combined γ-ray and conversion-electron in-beam spectroscopy. Besides the previously observed rotational band based on the [521]1/2− configuration, another rotational structure has been identified using γ-γ coincidences. The use of electron spectroscopy allow...

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Detalles Bibliográficos
Autores principales: Briselet, R., Theisen, Ch., Sulignano, B., Airiau, M., Auranen, K., Cox, D.M., Déchery, F., Drouart, A., Favier, Z., Gall, B., Goigoux, T., Grahn, T., Greenlees, P.T., Hauschild, K., Herzan, A., Herzberg, R.-D., Jakobsson, U., Julin, R., Juutinen, S., Konki, J., Leino, M., Lopez-Martens, A., Mistry, A., Nieminen, P., Pakarinen, J., Papadakis, P., Peura, P., Rahkila, P., Rey-Herme, E., Rubert, J., Ruotsalainen, P., Sandzelius, M., Sarén, J., Scholey, C., Sorri, J., Stolze, S., Uusitalo, J., Vandebrouck, M., Ward, A., Zielínska, M., Bally, B., Bender, M., Ryssens, W.
Lenguaje:eng
Publicado: 2020
Materias:
nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
Acceso en línea:https://dx.doi.org/10.1103/PhysRevC.102.014307
http://cds.cern.ch/record/2800349
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author Briselet, R.
Theisen, Ch.
Sulignano, B.
Airiau, M.
Auranen, K.
Cox, D.M.
Déchery, F.
Drouart, A.
Favier, Z.
Gall, B.
Goigoux, T.
Grahn, T.
Greenlees, P.T.
Hauschild, K.
Herzan, A.
Herzberg, R.-D.
Jakobsson, U.
Julin, R.
Juutinen, S.
Konki, J.
Leino, M.
Lopez-Martens, A.
Mistry, A.
Nieminen, P.
Pakarinen, J.
Papadakis, P.
Peura, P.
Rahkila, P.
Rey-Herme, E.
Rubert, J.
Ruotsalainen, P.
Sandzelius, M.
Sarén, J.
Scholey, C.
Sorri, J.
Stolze, S.
Uusitalo, J.
Vandebrouck, M.
Ward, A.
Zielínska, M.
Bally, B.
Bender, M.
Ryssens, W.
author_facet Briselet, R.
Theisen, Ch.
Sulignano, B.
Airiau, M.
Auranen, K.
Cox, D.M.
Déchery, F.
Drouart, A.
Favier, Z.
Gall, B.
Goigoux, T.
Grahn, T.
Greenlees, P.T.
Hauschild, K.
Herzan, A.
Herzberg, R.-D.
Jakobsson, U.
Julin, R.
Juutinen, S.
Konki, J.
Leino, M.
Lopez-Martens, A.
Mistry, A.
Nieminen, P.
Pakarinen, J.
Papadakis, P.
Peura, P.
Rahkila, P.
Rey-Herme, E.
Rubert, J.
Ruotsalainen, P.
Sandzelius, M.
Sarén, J.
Scholey, C.
Sorri, J.
Stolze, S.
Uusitalo, J.
Vandebrouck, M.
Ward, A.
Zielínska, M.
Bally, B.
Bender, M.
Ryssens, W.
author_sort Briselet, R.
collection CERN
description The odd-Z Md251 nucleus was studied using combined γ-ray and conversion-electron in-beam spectroscopy. Besides the previously observed rotational band based on the [521]1/2− configuration, another rotational structure has been identified using γ-γ coincidences. The use of electron spectroscopy allowed the rotational bands to be observed over a larger rotational frequency range. Using the transition intensities that depend on the gyromagnetic factor, a [514]7/2− single-particle configuration has been inferred for this band, i.e., the ground-state band. A physical background that dominates the electron spectrum with an intensity of ≃60% was well reproduced by simulating a set of unresolved excited bands. Moreover, a detailed analysis of the intensity profile as a function of the angular momentum provided a method for deriving the orbital gyromagnetic factor, namely gK=0.69−0.16+0.19 for the ground-state band. The odd-Z Md249 was studied using γ-ray in-beam spectroscopy. Evidence for octupole correlations resulting from the mixing of the Δl=Δj=3 [521]3/2− and [633]7/2+ Nilsson orbitals were found in both Md249,251. A surprising similarity of the Md251 ground-state band transition energies with those of the excited band of Lr255 has been discussed in terms of identical bands. Skyrme-Hartree-Fock-Bogoliubov calculations were performed to investigate the origin of the similarities between these bands.
id cern-2800349
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
record_format invenio
spelling cern-28003492023-03-14T16:52:43Zdoi:10.1103/PhysRevC.102.014307http://cds.cern.ch/record/2800349engBriselet, R.Theisen, Ch.Sulignano, B.Airiau, M.Auranen, K.Cox, D.M.Déchery, F.Drouart, A.Favier, Z.Gall, B.Goigoux, T.Grahn, T.Greenlees, P.T.Hauschild, K.Herzan, A.Herzberg, R.-D.Jakobsson, U.Julin, R.Juutinen, S.Konki, J.Leino, M.Lopez-Martens, A.Mistry, A.Nieminen, P.Pakarinen, J.Papadakis, P.Peura, P.Rahkila, P.Rey-Herme, E.Rubert, J.Ruotsalainen, P.Sandzelius, M.Sarén, J.Scholey, C.Sorri, J.Stolze, S.Uusitalo, J.Vandebrouck, M.Ward, A.Zielínska, M.Bally, B.Bender, M.Ryssens, W.In-beam γ -ray and electron spectroscopy of $^{249,251}$Mdnucl-thNuclear Physics - Theorynucl-exNuclear Physics - ExperimentThe odd-Z Md251 nucleus was studied using combined γ-ray and conversion-electron in-beam spectroscopy. Besides the previously observed rotational band based on the [521]1/2− configuration, another rotational structure has been identified using γ-γ coincidences. The use of electron spectroscopy allowed the rotational bands to be observed over a larger rotational frequency range. Using the transition intensities that depend on the gyromagnetic factor, a [514]7/2− single-particle configuration has been inferred for this band, i.e., the ground-state band. A physical background that dominates the electron spectrum with an intensity of ≃60% was well reproduced by simulating a set of unresolved excited bands. Moreover, a detailed analysis of the intensity profile as a function of the angular momentum provided a method for deriving the orbital gyromagnetic factor, namely gK=0.69−0.16+0.19 for the ground-state band. The odd-Z Md249 was studied using γ-ray in-beam spectroscopy. Evidence for octupole correlations resulting from the mixing of the Δl=Δj=3 [521]3/2− and [633]7/2+ Nilsson orbitals were found in both Md249,251. A surprising similarity of the Md251 ground-state band transition energies with those of the excited band of Lr255 has been discussed in terms of identical bands. Skyrme-Hartree-Fock-Bogoliubov calculations were performed to investigate the origin of the similarities between these bands.The odd-$Z$ $^{251}$Md nucleus was studied using combined $\gamma$-ray and conversion-electron in-beam spectroscopy. Besides the previously observed rotational band based on the $[521]1/2^-$ configuration, another rotational structure has been identified using $\gamma$-$\gamma$ coincidences. The use of electron spectroscopy allowed the rotational bands to be observed over a larger rotational frequency range. Using the transition intensities that depend on the gyromagnetic factor, a $[514]7/2^-$ single-particle configuration has been inferred for this band, i.e., the ground-state band. A physical background that dominates the electron spectrum with an intensity of $\simeq$ 60% was well reproduced by simulating a set of unresolved excited bands. Moreover, a detailed analysis of the intensity profile as a function of the angular momentum provided a method for deriving the orbital gyromagnetic factor, namely $g_K = 0.69^{+0.19}_{-0.16}$ for the ground-state band. The odd-$Z$ $^{249}$Md was studied using $\gamma$-ray in-beam spectroscopy. Evidence for octupole correlations resulting from the mixing of the $\Delta l = \Delta j = 3$ $[521]3/2^-$ and $[633]7/2^+$ Nilsson orbitals were found in both $^{249,251}$Md. A surprising similarity of the $^{251}$Md ground-state band transition energies with those of the excited band of $^{255}$Lr has been discussed in terms of identical bands. Skyrme-Hartree-Fock-Bogoliubov calculations were performed to investigate the origin of the similarities between these bands.arXiv:2001.10235oai:cds.cern.ch:28003492020-01-28
spellingShingle nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
Briselet, R.
Theisen, Ch.
Sulignano, B.
Airiau, M.
Auranen, K.
Cox, D.M.
Déchery, F.
Drouart, A.
Favier, Z.
Gall, B.
Goigoux, T.
Grahn, T.
Greenlees, P.T.
Hauschild, K.
Herzan, A.
Herzberg, R.-D.
Jakobsson, U.
Julin, R.
Juutinen, S.
Konki, J.
Leino, M.
Lopez-Martens, A.
Mistry, A.
Nieminen, P.
Pakarinen, J.
Papadakis, P.
Peura, P.
Rahkila, P.
Rey-Herme, E.
Rubert, J.
Ruotsalainen, P.
Sandzelius, M.
Sarén, J.
Scholey, C.
Sorri, J.
Stolze, S.
Uusitalo, J.
Vandebrouck, M.
Ward, A.
Zielínska, M.
Bally, B.
Bender, M.
Ryssens, W.
In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title_full In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title_fullStr In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title_full_unstemmed In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title_short In-beam γ -ray and electron spectroscopy of $^{249,251}$Md
title_sort in-beam γ -ray and electron spectroscopy of $^{249,251}$md
topic nucl-th
Nuclear Physics - Theory
nucl-ex
Nuclear Physics - Experiment
url https://dx.doi.org/10.1103/PhysRevC.102.014307
http://cds.cern.ch/record/2800349
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