Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg

Tadashi Shimoda; Kunihiko Tajiri; Atsuko Odahara; Masaki Suga; Noriaki Hamatani; Hiroki Nishibata; Jun Takatsu; Rin Yokoyama; Yoshikazu Hirayama; Nobuaki Imai; Hiroari Miyatake; Mathew Pearson; C. D.P. Levy; K. P. Jackson; Romain Leguillon; Costel Petrache

doi:10.1143/ptps.196.310

Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg

Tadashi Shimoda, Kunihiko Tajiri, Atsuko Odahara, Masaki Suga, Noriaki Hamatani, Hiroki Nishibata, Jun Takatsu, Rin Yokoyama, Yoshikazu Hirayama, Nobuaki Imai, Hiroari Miyatake, Mathew Pearson, C. D.P. Levy, K. P. Jackson, Romain Leguillon, Costel Petrache

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Abstract

We have been studying the structure of Mg isotopes in the region of the N = 20 island of inversion, to clarify the structure change as a function of the neutron number. The experiments are being performed by our unique method of β-decay spectroscopy taking advantage of highly-spin-polarized radioactive nuclear beams at TRIUMF. The β-decay asymmetry in the Na-isotope decay enables unambiguous spin-parity assignments of the levels in the daughter Mg isotope, and it becomes possible to compare the experimental data and theoretical predictions on a level-by-level basis. The present paper reports on the results of the β decay of 30Na→30Mg. From the detailed decay scheme of 30Na, it is suggested that the 30Mg levels at 1.788 MeV [(0+2 )], 3.460 MeV [(2)+], 4.967 MeV [1+], and 5.414 MeV [2+] have deformed shapes with intruder configurations, whereas the level at 2.466 MeV [(2+2 )] has different nature both from the spherical ground state and the deformed four levels. It is proposed that the 2+2 level is the band-head of the predicted γ-band.

Original language	English
Pages (from-to)	310-315
Number of pages	6
Journal	Progress of Theoretical Physics Supplement
Issue number	196
DOIs	https://doi.org/10.1143/ptps.196.310
Publication status	Published - 2012
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1143/ptps.196.310

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Shimoda, T., Tajiri, K., Odahara, A., Suga, M., Hamatani, N., Nishibata, H., Takatsu, J., Yokoyama, R., Hirayama, Y., Imai, N., Miyatake, H., Pearson, M., Levy, C. D. P., Jackson, K. P., Leguillon, R., & Petrache, C. (2012). Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg. Progress of Theoretical Physics Supplement, (196), 310-315. https://doi.org/10.1143/ptps.196.310

Shimoda, T, Tajiri, K, Odahara, A, Suga, M, Hamatani, N, Nishibata, H, Takatsu, J, Yokoyama, R, Hirayama, Y, Imai, N, Miyatake, H, Pearson, M, Levy, CDP, Jackson, KP, Leguillon, R & Petrache, C 2012, 'Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg', Progress of Theoretical Physics Supplement, no. 196, pp. 310-315. https://doi.org/10.1143/ptps.196.310

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title = "Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg",

abstract = "We have been studying the structure of Mg isotopes in the region of the N = 20 island of inversion, to clarify the structure change as a function of the neutron number. The experiments are being performed by our unique method of β-decay spectroscopy taking advantage of highly-spin-polarized radioactive nuclear beams at TRIUMF. The β-decay asymmetry in the Na-isotope decay enables unambiguous spin-parity assignments of the levels in the daughter Mg isotope, and it becomes possible to compare the experimental data and theoretical predictions on a level-by-level basis. The present paper reports on the results of the β decay of 30Na→30Mg. From the detailed decay scheme of 30Na, it is suggested that the 30Mg levels at 1.788 MeV [(0+2 )], 3.460 MeV [(2)+], 4.967 MeV [1+], and 5.414 MeV [2+] have deformed shapes with intruder configurations, whereas the level at 2.466 MeV [(2+2 )] has different nature both from the spherical ground state and the deformed four levels. It is proposed that the 2+2 level is the band-head of the predicted γ-band.",

author = "Tadashi Shimoda and Kunihiko Tajiri and Atsuko Odahara and Masaki Suga and Noriaki Hamatani and Hiroki Nishibata and Jun Takatsu and Rin Yokoyama and Yoshikazu Hirayama and Nobuaki Imai and Hiroari Miyatake and Mathew Pearson and Levy, {C. D.P.} and Jackson, {K. P.} and Romain Leguillon and Costel Petrache",

year = "2012",

doi = "10.1143/ptps.196.310",

language = "English",

pages = "310--315",

journal = "Progress of Theoretical Physics Supplement",

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T1 - Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes

T2 - Shape coexistence in 30mg

AU - Shimoda, Tadashi

AU - Tajiri, Kunihiko

AU - Odahara, Atsuko

AU - Suga, Masaki

AU - Hamatani, Noriaki

AU - Nishibata, Hiroki

AU - Takatsu, Jun

AU - Yokoyama, Rin

AU - Hirayama, Yoshikazu

AU - Imai, Nobuaki

AU - Miyatake, Hiroari

AU - Pearson, Mathew

AU - Levy, C. D.P.

AU - Jackson, K. P.

AU - Leguillon, Romain

AU - Petrache, Costel

PY - 2012

Y1 - 2012

N2 - We have been studying the structure of Mg isotopes in the region of the N = 20 island of inversion, to clarify the structure change as a function of the neutron number. The experiments are being performed by our unique method of β-decay spectroscopy taking advantage of highly-spin-polarized radioactive nuclear beams at TRIUMF. The β-decay asymmetry in the Na-isotope decay enables unambiguous spin-parity assignments of the levels in the daughter Mg isotope, and it becomes possible to compare the experimental data and theoretical predictions on a level-by-level basis. The present paper reports on the results of the β decay of 30Na→30Mg. From the detailed decay scheme of 30Na, it is suggested that the 30Mg levels at 1.788 MeV [(0+2 )], 3.460 MeV [(2)+], 4.967 MeV [1+], and 5.414 MeV [2+] have deformed shapes with intruder configurations, whereas the level at 2.466 MeV [(2+2 )] has different nature both from the spherical ground state and the deformed four levels. It is proposed that the 2+2 level is the band-head of the predicted γ-band.

AB - We have been studying the structure of Mg isotopes in the region of the N = 20 island of inversion, to clarify the structure change as a function of the neutron number. The experiments are being performed by our unique method of β-decay spectroscopy taking advantage of highly-spin-polarized radioactive nuclear beams at TRIUMF. The β-decay asymmetry in the Na-isotope decay enables unambiguous spin-parity assignments of the levels in the daughter Mg isotope, and it becomes possible to compare the experimental data and theoretical predictions on a level-by-level basis. The present paper reports on the results of the β decay of 30Na→30Mg. From the detailed decay scheme of 30Na, it is suggested that the 30Mg levels at 1.788 MeV [(0+2 )], 3.460 MeV [(2)+], 4.967 MeV [1+], and 5.414 MeV [2+] have deformed shapes with intruder configurations, whereas the level at 2.466 MeV [(2+2 )] has different nature both from the spherical ground state and the deformed four levels. It is proposed that the 2+2 level is the band-head of the predicted γ-band.

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Structure of mg isotope studied by β-decay spectroscopy of spin-polarized na isotopes: Shape coexistence in 30mg

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