Author:
Pietralla N.,Kremer C.,Beck T.,Witt W.,Gayer U.,von Neumann-Cosel P.,Werner V.
Abstract
New spectroscopic information on electric quadrupole collectivity has recently been obtained. We report on our identification of a coexisting deformed structure in the quasi-doubly closed-shell nucleus 96Zr from our measurement of a corresponding absolute E2 intraband transition strength in electron scattering reactions and its small mixing matrix element with the spherical ground state structure. The even-mass zirconium isotopes exhibit a first order quantum shape phase transition between neutron numbers 58 and 60. We have used photon scattering reactions for a first measurement of the E2 decay strength of the nuclear 1+ scissors mode. Evidence for its 2+ rotational excitation and its extraordinarily large rotational moment of inertia are presented.
Cited by
3 articles.
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1. Subtle connection between shape coexistence and quantum phase transition: The Zr case;Physical Review C;2020-11-30
2. SHAPE EVOLUTION OF 96ZR AND 96MО WITH EXCITATION ENERGY INCREASE;Bulletin of Dubna International University for Nature, Society, and Man. Series: Natural and engineering sciences;2019-12-24
3. Quest of shape coexistence in Zr isotopes;Physical Review C;2019-10-22