6533b826fe1ef96bd128396c

RESEARCH PRODUCT

Restoring the valence-shell stabilization in 140Nd

R KernR ZidarovaN PietrallaG RainovskiR StegmannA BlazhevA BoukhariJ CederkällJ G CubissM DjongolovC FransenL P GaffneyK GladnishkiE GiannopoulosH HessJ JolieV KarayonchevL KayaJ M KeatingsD KochevaTh KröllO MöllerG G O'neillJ PakarinenP ReiterD RosiakM ScheckJ SnallP A SöderströmP SpagnolettiM StoyanovaS ThielA VogtN WarrA WelkerV WernerJ WiederholdH De Witte

subject

electromagnetic transitionsNuclear Physics - Experimentcollective levelsydinfysiikkanuclear structure and decays

description

A projectile Coulomb-excitation experiment was performed at the radioactive-ion beam facility HIE-ISOLDE at CERN to obtain $E2$ and $M1$ transition matrix elements of $^{140}$Nd using the multistep Coulomb-excitation code GOSIA. The absolute $M1$ strengths, $\textrm{B}(M1;2^+_2→2^+_1)=0.033(8)μ^2_N,\textrm{B}(M1;2^+_3→2^+_1)=0.26^{+0.11}_{−0.10}μ^2_N$, and $\textrm{B}(M1;2^+_4→2^+_1)<0.04μ^2_{\textrm{N}}$, identify the $2^+_3$ state as the main fragment of the one-quadrupole-phonon proton-neutron mixed-symmetry state of $^{140}$Nd. The degree of F-spin mixing in $^{140}$Nd was quantified with the determination of the mixing matrix element $V_{\textrm{F−mix}}<7^{+13}_{−7}$keV.

yearjournalcountryeditionlanguage
2020-01-01
http://urn.fi/URN:NBN:fi:jyu-202010266387