Mixing of two-quasineutron and two-quasiproton K super( capital pi )=6 super(+) configurations in the vicinity of super(174)Yb

Mixing of two-quasineutron and two-quasiproton K super( capital pi )=6 super(+) configurations in the vicinity of super(174)Yb

In the framework of the projected shell model, we investigate the competition between the two-quasineutron and two-quasiproton K super( capital pi )=6 super(+) states in the ytterbium isotopes and N=104 isotones adjacent to super(174)Yb. The super(174)Yb results are compared with the experimental da...

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Veröffentlicht in:Chinese physics C 2013-03, Vol.37 (3), p.034102-1-4
Hauptverfasser: Jiao, C-F, Dong, G-X, Xu, F-R
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Sprache:eng
Schlagworte:
Admixtures
Competition
Isomers
Shells
Ytterbium isotopes
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creator Jiao, C-F
Dong, G-X
Xu, F-R
description In the framework of the projected shell model, we investigate the competition between the two-quasineutron and two-quasiproton K super( capital pi )=6 super(+) states in the ytterbium isotopes and N=104 isotones adjacent to super(174)Yb. The super(174)Yb results are compared with the experimental data. The K super( capital pi )=6 super(+) isomer observed in super(174)Yb is assigned as an admixture of the. upsilon 7/2 super(-)[514] direct product upsilon 5/2 super(-)[512] and capital pi 7/2 super(+)[404] direct product capital pi 5/2 super(+)[402] intrinsic structure, which explains the experimental degree 'g sub(K)-g sub(R) degree ' value. Similar mixing would appear in super(172)Yb, super(176)Hf, and super(178)W. The low-lying K super( capital pi )=6 super(+) states are also predicted in super(170-178)Yb.
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The super(174)Yb results are compared with the experimental data. The K super( capital pi )=6 super(+) isomer observed in super(174)Yb is assigned as an admixture of the. upsilon 7/2 super(-)[514] direct product upsilon 5/2 super(-)[512] and capital pi 7/2 super(+)[404] direct product capital pi 5/2 super(+)[402] intrinsic structure, which explains the experimental degree 'g sub(K)-g sub(R) degree ' value. Similar mixing would appear in super(172)Yb, super(176)Hf, and super(178)W. 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The super(174)Yb results are compared with the experimental data. The K super( capital pi )=6 super(+) isomer observed in super(174)Yb is assigned as an admixture of the. upsilon 7/2 super(-)[514] direct product upsilon 5/2 super(-)[512] and capital pi 7/2 super(+)[404] direct product capital pi 5/2 super(+)[402] intrinsic structure, which explains the experimental degree 'g sub(K)-g sub(R) degree ' value. Similar mixing would appear in super(172)Yb, super(176)Hf, and super(178)W. 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source IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link; Alma/SFX Local Collection
subjects Admixtures
Competition
Isomers
Shells
Ytterbium isotopes
title Mixing of two-quasineutron and two-quasiproton K super( capital pi )=6 super(+) configurations in the vicinity of super(174)Yb
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