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Shape coexistence near the neutron number N=20: First identification of the E0 decay from the deformed 0^+_2 state in 30Mg

The 1789 keV level in 30Mg was identified as the first excited 0^+ state by measuring its E0 transition to the ground state. The measured small value of rho^2(E0,0^+_2 --> 0^+_1) = 5.7(14) x 10^-3 implies a very small mixing of competing configurations with largely different intrinsic quadrupole deformation near N=20. Axially symmetric Beyond-Mean-Field configuration mixing calculations identify the ground state of 30Mg to be based on neutron configurations below the N=20 shell closure, while the excited 0^+ state mainly consists of a two neutrons excitated into the nu1 f_{7/2} orbital. Using a two-level model, a mixing amplitude of 0.08(4) can be derived.

preprint2008arXivOpen access
W. SchwerdtfegerP. G. ThirolfK. WimmerD. HabsH. MachT. R. RodriguezV. BildsteinJ. L. EgidoL. M. FraileR. GernhaeuserR. HertenbergerK. HeydeP. HoffH. HuebelU. KoesterT. KroellR. KrueckenR. LutterT. MorganP. Ring
nucl-ex
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W. SchwerdtfegerP. G. ThirolfK. WimmerD. HabsH. MachT. R. RodriguezV. BildsteinJ. L. EgidoL. M. FraileR. GernhaeuserR. HertenbergerK. HeydeP. HoffH. HuebelU. KoesterT. KroellR. KrueckenR. LutterT. MorganP. Ring

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