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Collective treatment of the isovector pair correlations. Boson representation

The theoretical approach to consideration of the Hamiltonian with pairing forces using a technique of the finite boson representation is developed. It is shown that a simultaneous description of the pairing vibrational state in $^{56}$Ni and the pairing rotational states with $T$=0 in the neighboring $N=Z$ nuclei is possible if the pairing Hamiltonian takes into account only isovector monopole pairing. However, the calculated energies of the pairing rotational states of $N=Z$ nuclei removed from $^{56}$Ni by 12 and more nucleons exceed significantly the experimental values. The possible reason of this discrepancy is discussed.

preprint2019arXivOpen access
G. NikoghosyanE. A. KolganovaD. A. SazonovR. V. Jolos
nucl-th
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Open access4 authors1 topic
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G. NikoghosyanE. A. KolganovaD. A. SazonovR. V. Jolos

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