Journalartikel

ALGEBRAIC C-12+C-12 CLUSTER MODEL OF THE MG-24 NUCLEUS


AutorenlisteCSEH, J; LEVAI, G; SCHEID, W

Jahr der Veröffentlichung1993

Seiten1724-1738

ZeitschriftPhysical Review C

Bandnummer48

Heftnummer4

ISSN0556-2813

eISSN1089-490X

DOI Linkhttps://doi.org/10.1103/PhysRevC.48.1724

VerlagAmerican Physical Society


Abstract
A semimicroscopic algebraic C-12+C-12 cluster model is applied to describe the structure of the Mg-24 nucleus. The spectrum of the T = 0 states is analyzed in terms of this configuration with C-12 clusters allowed to occupy their 0+(0.0 MeV), 2+(4.439 MeV), and 4+(14.083 MeV) states. About a hundred experimental levels below E(x) congruent-to 16 MeV are assigned to model bands. A large number of observed reduced E2 transition probabilities are reproduced fairly well indicating the approximate realization of SU(3) dynamical symmetry. The spectrum of molecular resonances is also described reasonably well. E2 transitions within this region are found to be significantly weaker than what has been predicted by other models.



Zitierstile

Harvard-ZitierstilCSEH, J., LEVAI, G. and SCHEID, W. (1993) ALGEBRAIC C-12+C-12 CLUSTER MODEL OF THE MG-24 NUCLEUS, PHYSICAL REVIEW C, 48(4), pp. 1724-1738. https://doi.org/10.1103/PhysRevC.48.1724

APA-ZitierstilCSEH, J., LEVAI, G., & SCHEID, W. (1993). ALGEBRAIC C-12+C-12 CLUSTER MODEL OF THE MG-24 NUCLEUS. PHYSICAL REVIEW C. 48(4), 1724-1738. https://doi.org/10.1103/PhysRevC.48.1724



Schlagwörter


ENERGY-LEVELSHIGH-SPIN STATESLIGHT-NUCLEIQUASI-MOLECULAR SPECTRARADIATIVE DECAYSRESONANCESSHELL-MODEL

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