6533b7d2fe1ef96bd125f3a9
RESEARCH PRODUCT
Local suppression of collectivity in theN=80isotones at theZ=58subshell closure
Thierry StoraT. MöllerT. KröllM. DanchevM. VermeulenD. TarpanovN. Lo IudiceN. WarrT. BlochD. VoulotH. De WitteD. BiancoCh. StoyanovP. ReiterC. StahlB. SiebeckJanne PakarinenJanne PakarinenMarcus ScheckR. StegmannJ. LeskeA. BlazhevFredrik WenanderNorbert PietrallaG. RainovskiV. WernerS. BönigK. MoschnerK. A. GladnishkiA. DamyanovaA. DamyanovaC. BauerM. Seidlitzsubject
Nuclear physicsMass numberPhysicsNuclear and High Energy PhysicsPairingNuclear TheoryPhysics::Atomic and Molecular ClustersClosure (topology)NucleonValence electrondescription
) transition strengths [1] and thenumber of nucleons in the valence shell. The global behaviorof these quantities between the major shells as a function ofthe nucleon number is well understood in the frameworks ofboth collective and microscopic models. One could expect thatthese general trends in the collective properties between themajorshellsaremodulated bythesubshellstructure.However,it is usually thought that the pairing correlations with anenergy scale of about 2 MeV, smear out and dissolve thesubshell structure as long as the separation energies betweenthe subshells are only about a few hundred keV.The recently observed evolution of the isovectorquadrupole-collective valence-shell excitations in the
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-08-16 | Physical Review C |