6533b830fe1ef96bd1297b23
RESEARCH PRODUCT
Testing microscopically derived descriptions of nuclear collectivity: Coulomb excitation of Mg-22
A. B. GarnsworthyJens LassenJack HendersonJack HendersonP. E. GarrettChing-yen WuDennis MuecherC. E. SvenssonN. BernierN. BernierB. OlaizolaB. OlaizolaG. HackmanF. A. AliF. A. AliR. Caballero-folchB. JigmeddorjJoochun ParkJoochun ParkPanu RuotsalainenKristina D. LauneyS. R. StrobergJ. MeasuresJ. MeasuresR. WadsworthO. PaetkauM. BowryE. O'sullivanJason D. HoltM. A. BentleyJames SmallcombeL. J. EvittsL. J. EvittsA.i. KilicR. Fredericksubject
Nuclear and High Energy Physics3106IsoscalarCollectivityCoulomb excitationAb initioFOS: Physical sciences22NeCoulomb excitationAstronomy & Astrophysics01 natural sciencesPhysics Particles & FieldsMg-22Quantum mechanics0103 physical sciencesSensitivity (control systems)collectivityNuclear Experiment (nucl-ex)010306 general physicsNuclear theoryNuclear ExperimentPhysicsScience & TechnologyIsovectorta114010308 nuclear & particles physicsOperator (physics)Physics22MgNe-22lcsh:QC1-999Physics NuclearSTATESPhysical SciencesAb initiolcsh:PhysicsSymplectic geometrydescription
Many-body nuclear theory utilizing microscopic or chiral potentials has developed to the point that collectivity might be dealt with in an {\it ab initio} framework without the use of effective charges; for example with the proper evolution of operators, or alternatively, through the use of an appropriate and manageable subset of particle-hole excitations. We present a precise determination of $E2$ strength in $^{22}$Mg and its mirror $^{22}$Ne by Coulomb excitation, allowing for rigorous comparisons with theory. No-core symplectic shell-model calculations were performed and agree with the new $B(E2)$ values while in-medium similarity-renormalization-group calculations consistently underpredict the absolute strength, with the missing strength found to have both isoscalar and isovector components.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-07-01 |