The many levels pairing Hamiltonian for two pairs |
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Authors: | Email author" target="_blank">M?B?BarbaroEmail author R?Cenni A?Molinari M?R?Quaglia |
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Institution: | (1) Dipartimento di Fisica Teorica, Università di Torino, Torino, Italy;(2) Dipartimento di Fisica, Università di Genova, Genova, Italy |
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Abstract: | We address the problem of two pairs of fermions living on an arbitrary number of single-particle levels of a potential well (mean field) and interacting through a pairing force in the framework of the Richardson equations. The associated solutions are classified in terms of a number vl, which reduces to the seniority v in the limit of a large pairing strength G and yields the number of pairs not developing a collective behaviour, their energy remaining finite in the G limit. We express analytically, through the moments of the single-particle levels distribution, the collective mode energy and the two critical values Gcr+ and Gcr- of the coupling which can exist on a single-particle level with no pair degeneracy. Notably Gcr+ and Gcr-, when the number of single particle levels goes to infinity, merge into the critical coupling of a one-pair system Gcr (when it exists), which is not envisioned by the Richardson theory. In correspondence of Gcr, the system undergoes a transition from a mean-field- to a pairing-dominated regime. We finally explore the behaviour of the excitation energies, wave functions and pair transfer amplitudes versus G finding out that the former, for G > Gcr-, come close to the BCS predictions, whereas the latter display a divergence at Gcr, signaling the onset of a long-range off-diagonal order in the system. |
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Keywords: | 21 60 -n Nuclear structure models and methods 21 30 Fe Forces in hadronic systems and effective interactions 24 10 Cn Many-body theory |
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