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Paper detail

Evidence for shape coexistence in $^{98}$Mo

A $γγ$ angular correlation experiment has been performed to investigate the low-energy states of the nucleus $^{98}$Mo. The new data, including spin assignments, multipole mixing ratios and lifetimes reveal evidence for shape coexistence and mixing in $^{98}$Mo, arising from a proton intruder configuration. This result is reproduced by a theoretical calculation within the proton-neutron interacting boson model with configuration mixing, based on microscopic energy density functional theory. The microscopic calculation indicates the importance of the proton particle-hole excitation across the Z=40 sub-shell closure and the subsequent mixing between spherical vibrational and the $γ$-soft equilibrium shapes in $^{98}$Mo.

preprint2013arXivOpen access
T. ThomasK. NomuraV. WernerT. AhnN. CooperH. DuckwitzM. HintonG. IlieJ. JolieP. PetkovD. Radeck
nucl-exnucl-th
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T. ThomasK. NomuraV. WernerT. AhnN. CooperH. DuckwitzM. HintonG. IlieJ. JolieP. PetkovD. Radeck

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