6533b829fe1ef96bd128b004
RESEARCH PRODUCT
Spins and magnetic moments of 58;60;62;64Mn ground states and isomers
H. HeylenC. BabcockJ. BillowesM.l. BissellK. BlaumP. CampbellB. ChealR.f. Garcia RuizCh. GeppertW. GinsM. KowalskaK. KreimS.m. LenziI.d. MooreR. NeugartG. NeyensW. NörtershäuserJ. PapugaD.t. Yordanovsubject
isotoopitSpin parity and isobaric spinFOS: Physical sciencesmangaaniElectromagnetic momentsShell modelmagnetic momentsNuclear Physics - ExperimentPräzisionsexperimente - Abteilung BlaumLaser spectroscopyNuclear Experiment (nucl-ex)Nuclear ExperimentNuclear Experimentspinsdescription
The odd-odd 54;56;58;60;62;64Mn isotopes (Z = 25) were studied using bunched-beam collinear laser spectroscopy at ISOLDE, CERN. From the measured hyperfine spectra the spins and magnetic moments of Mn isotopes up to N = 39 were extracted. The previous tentative ground state spin assignments of 58;60;62;64Mn are now firmly determined to be I = 1 along with an I = 4 assignment for the isomeric states in 58;60;62Mn. The I = 1 magnetic moments show a decreasing trend with increasing neutron number while the I = 4 moments remain quite constant between N = 33 and N = 37. The results are compared to large-scale shell-model calculations using the GXPF1A and LNPS effective interactions. The excellent agreement of the ground state moments with the predictions from the LNPS calculations illustrates the need for an increasing amount of proton excitations across Z = 28 and neutron excitations across N = 40 in the ground state wave functions from N = 37 onwards. The odd-odd Mn54,56,58,60,62,64 isotopes (Z=25) were studied using bunched-beam collinear laser spectroscopy at ISOLDE, CERN. From the measured hyperfine spectra the spins and magnetic moments of Mn isotopes up to N=39 were extracted. The previous tentative ground state spin assignments of Mn58,60,62,64 are now firmly determined to be I=1 along with an I=4 assignment for the isomeric states in Mn58,60,62. The I=1 magnetic moments show a decreasing trend with increasing neutron number while the I=4 moments remain quite constant between N=33 and N=37. The results are compared to large-scale shell-model calculations using the GXPF1A and LNPS effective interactions. The excellent agreement of the ground state moments with the predictions from the LNPS calculations illustrates the need for an increasing amount of proton excitations across Z=28 and neutron excitations across N=40 in the ground state wave functions from N=37 onwards. The odd-odd 54;56;58;60;62;64Mn isotopes (Z = 25) were studied using bunched-beam collinear laser spectroscopy at ISOLDE, CERN. From the measured hyperfine spectra the spins and magnetic moments of Mn isotopes up to N = 39 were extracted. The previous tentative ground state spin assignments of 58;60;62;64Mn are now firmly det
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-08-25 |