R. C. Nayak, S. Pattnaik
Published 2014-05-13Version 1
We use the recently developed Differential Equation Model for the reduced electric quadrupole transition probability B(E2) for predicting its values for a wide range of even-even nuclides almost throughout the nuclear landscape from Neon to Californium. This is made possible as the principal equation in the model, namely, the differential equation connecting the B(E2) value of a given nucleus with its derivatives with respect to neutron and proton numbers provides two different recursion relations, each connecting three different neighboring even-even nuclei from lower to higher mass numbers and vice-verse. These relations helped us to extrapolate from known to unknown terrain of the B(E2) landscape and thereby facilitate its predictions throughout.
B(E2) Evaluation for $0_{1}^{+} \rightarrow 2_{1}^{+}$ Transitions in Even-Even Nuclei
Toward a nuclear mass table with the continuum and deformation effects: even-even nuclei in the nuclear chart
B(E2) Evaluation for 0+ to 2+ Transitions in Even-Even Nuclei
![QR code for arXiv:1405.3191 [nucl-th]](http://oss.arxitics.com/images/favicon.svg)