First evidence for the hyperdeformed nuclear shape at high angular momentum

12 July 1993

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 71 (2) , 231-234
https://doi.org/10.1103/physrevlett.71.231

Abstract

A ridge structure consisting of stretched E2 transitions and extending from ħω≃0.6 to 0.75 MeV has been found in a proton-selected γ-γ matrix in the reaction

{}^{120}{Sn}

(^{37}

Cl, xn

)^{152, 153}

Dy at 187 MeV. The ridge spacing corresponds to a dynamic moment of inertia,

{scrI}^{(2)}

, of about 130

ħ^{2}

{MeV}^{- 1}

and suggests the existence of a hyperdeformed prolate shape with a quadrupole deformation

β_{2}

≥0.9. Furthermore, a cascade of 10 discrete transitions with an average energy spacing of 30±3 keV has been found. This result is consistent with calculations indicating conditions favorable to hyperdeformed structures.

Keywords

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