alpha-decay properties of Fr-200,Fr-202

Background: The neutron-deficient lead region provides a range of nuclear phenomena, including isomerism at low energies. This phenomenon can be studied by alpha decay because the degree of hindrance of alpha decay provides information on the change in nuclear structure of connected states. Purpose: The aim of this work was to investigate the alpha-decay properties of Fr-200,Fr-202 and daughter products. Method: Neutron-deficient francium nuclei are produced at ISOLDE-CERN bombarding a UCx target with 1.4 GeV protons. Surface ionization and mass-separation techniques were employed to provide a pure radioactive ion beam at a radiation-detection setup. Results: Due to the very high statistics and the high beam purity, improved decay data for Fr-202 and its daughters were obtained. In particular, this data set allowed us to identify many fine-structure alpha lines with a relative reduced alpha-decay width up to five orders of magnitude lower as the strongest ground-to-ground state or isomeric-to-isomeric state alpha-decay transition. In addition, several half-life values were extracted with similar or better precision as compared with the literature. Conclusions: The observation of crossover transitions positioned the isomeric high-spin level of At-198 at an excitation energy of 265(3) keV. Half-life values of 4.47(5) s and 1.28(10) s were extracted for the ground state and isomeric state of At-198 and 52(3) ms for the ground-state decay of Fr-200. Furthermore, alpha-decay schemes for Fr-202 and its daughter At-198 could be constructed.