2005
DOI: 10.1103/physrevc.71.044315
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Systematics of the α decay to vibrational2+states

Abstract: We give a systematic analysis of α decays to low-lying 2 + states in even-even nuclei. Collective excitations are considered within the spherical quasiparticle random-phase approximation. We use realistic G-matrix elements of the Bonn interaction as a residual two-body force. The only free parameters are the ratio between the isovector and isoscalar strengths and proton-neutron asymmetry. The formalism can reproduce the main experimental trends versus the excitation energy for both the B(E2) values and the α-d… Show more

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Cited by 18 publications
(8 citation statements)
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“…[51,45]. However, these calculations fail to reproduce the experimental B(E2) values, being approximately an order of magnitude too small.…”
Section: Oblate Yrast Band In 194 Pomentioning
confidence: 83%
“…[51,45]. However, these calculations fail to reproduce the experimental B(E2) values, being approximately an order of magnitude too small.…”
Section: Oblate Yrast Band In 194 Pomentioning
confidence: 83%
“…However, that is not the case in the calculations of Ref. [231] where absolute transitions were studied without including the continuum either. Yet the results also agree well with experiment.…”
Section: Alpha Decay As a Probe To Nuclear Shape Changes And Shape Comentioning
confidence: 93%
“…No sudden change in deformation was predicted at N = 92 in these calculations although a small discontinuity was present at N = 98. Smoothly varying behavior was also predicted by other theoretical approaches including a number-projected BCS model [39] and a QRPA description based on realistic interactions [40].…”
Section: ) Ratiomentioning
confidence: 97%