Nuclear size, electric monopole transitions, and the location of 0+2 states
Abstract
The work addresses the isotopic shift of nuclear radii for the even-even 36-52Ca isotopes using the interacting boson model (IBM) that includes the mixing from normal and intruder configurations. We obtain a good agreement between the calculated and experimental data, particularly for the dip at 48Ca. A direct correlation between nuclear size and electric monopole transitions is established to compute the electric monopole transition strengths, 2(E0). We further study the isotopic shift for the even-even 32-46Ar and 44-50Ti isotopes.
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