Study of the long-lived excited state in the neutron deficient nuclides $^{195,197,199}$Po by precision mass measurement
nucl-ex
/ Authors
N. A. Althubiti, D. Atanasov, K. Blaum, T. E. Cocolios, T. Day Goodacre, G. J. Farooq-Smith, D. V. Fedorov, V. N. Fedosseev, S. George, F. Herfurth
and 16 more authors
K. Heyde, S. Kreim, D. Lunney, K. M. Lynch, V. Manea, B. A. Marsh, D. Neidherr, M. Rosenbusch, R. E. Rossel, S. Rothe, L. Schweikhard, M. D. Seliverstov, A. Welker, F. Wienholtz, R. N. Wolf, K. Zuber
/ Abstract
Direct mass measurements of the low-spin $3/2^{(-)}$ and high-spin $13/2^{(+)}$ states in the neutron-deficient isotopes $^{195}$Po, $^{197}$Po, and high-spin $13/2^{(+)}$ state in $^{199}$Po were performed with the Penning-trap mass spectrometer ISOLTRAP at ISOLDE-CERN. These measurements allow the determination of the excitation energy of the isomeric state arising from the $ν$i$_{13/2}$ orbital in $^{195,197}$Po. Additionally, the excitation energy of isomeric states of lead, radon, and radium isotopes in this region were obtained from $α$-decay chains. The new excitation energies complete the knowledge of the energy systematics in the region and confirm for the first time that the $13/2^{(+)}$ states remain isomeric, independent of the number of valence neutrons.