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The structure of25Mg (1991)

Heidinger, F. ; Betz, P. ; Brendler, W. ; [et al.]

Springer

The European physical journal 338 (1991), S. 23-49

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ISSN: 1434-601X

Keywords: 27.30.−t ; 21.10.Hw ; 21.60.Cs

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Gamma-decay modes and spin(-parity) assignments of levels in25Mg have been systematically investigated up to 10 MeV excitation energy by particle-γ-ray angularcorrelation measurements with the24Mg(d, pγ) reaction at 6.5 MeV bombarding energy and with the22Ne(α,nγ) reaction at 11.8, 12.5, 14.4 and 15.5 MeV bombarding energy. A level scheme has been established which is comprehensive up to 8.3 MeV excitation energy forI≦9/2 and up to 10 MeV for 9/2〈I≦15/2. The excitation energies and electromagnetic properties of more than 70 states for which positive parity has been established or is most probable are compared with the results of shell-model calculations which use the complete configuration space of theO d 5/2 — 1s 1/2-O d 3/2 shell and the unifieds-d shell Hamiltonian. The agreement is good to excellent. The first intruder states are located near 6.8 MeV excitation energy. The collective properties of25Mg beyond the well established rotational bands are investigated using both the new experimental information and theB(E2)'s obtained from the shell model. The spectrum of25Mg is completely rotational for the first five to six MeV above the yrast line. Shell modelB (M 1)'s reflect the Nilsson model structure of25Mg in great detail. The prospectiveI π=9/2−, 13/2−, and 15/2− members of the established negative-parity,K=1/2 band are found in levels atE x=7801, 9410, and 8896 keV.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279113

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Structure of the mirror nuclei21Ne and21Na (1989)

Hoffmann, A. ; Betz, P. ; Röpke, H. ; [et al.]

Springer

The European physical journal 332 (1989), S. 289-304

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ISSN: 1434-601X

Keywords: 27.30.+t ; 21.10. Hw ; 21.60. Cs

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Theγ-decay of levels in21Ne up to 10 MeV excitation energy has been investigated byn — γ coincidence measurements initiated with the18O(α, nγ) reaction at 12, 13, 14.5 and 15.4 MeV bombarding energies. Spin(-parity) assignments of excited states are obtained by combining then — γ angular correlation measurements performed atE α=11, 11.82 and 13.6 MeV with a consideration of lifetimes, neutron penetrabilities of the unbound states, and information from the mirror nucleus21Na. The resulting values of Ex[keV]−J π are as follows: 4525-5+, 4686-3+, 5431-7+, 5549-3+, 5819-7−, 6175-7+, 6268-9+, 6550-9, 6639-9, 7006-7+, 7041-9, 7356-7 or 9, 7422-11(−), 7648-7+, 7981-11 or (7+), 8154-9, 8240-11, 8664-9− or 11 or 13−, 9401-13−, 9867-13− or 15+, 9941-13− or 15 or 17+. The assignment of mirror levels in21Ne —21Na has been extended to the 6175 keV level of21Ne. Excitation energies, electromagnetic properties, Gamow−Teller matrix elements and spectroscopic factors of positive parity states are compared with the results of shell-model calculations which employ a unifieds—d shell Hamiltonian and the unrestricted configuration space of the 0d 5/2 —1s 1/2—0d3/2 shell. Collective properties contained in shell model wave functions are explored up to the termination of bands atJ=17/2 or 19/2. The spectrum of intruder states in21Ne is observed to begin with a 5628 keV,J π=7/2+ state. The 7422, 8664 and 9401 keV levels are assigned as members of previously established negative-parity rotational bands.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01295459

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