The ISOLDE laser ion source (LIS), in which stepwise resonant laser io
nization is performed inside a high-temperature cavity, has been exten
ded to include the elements Be, Zn, Cu and Cd. The ionization efficien
cies obtained are discussed with respect to the level of saturation of
each step achieved with the available laser beam intensities. Because
of a high ionization potential of about 9 eV the first resonant trans
ition of Be, Zn and dd is in the far ultraviolet (UV) region. The UV l
aser beam needed for the.first resonant step of Be, Zn and Cd is achie
ved in a new laser setup via frequency tripling of the dye laser Light
. The ions created during the 30 ns laser pulse are extracted from the
hot cavity of the ion source by the electrical field resulting from t
he ohmic heating of the cavity. The time distribution of the laser-ion
ized ion bunches was measured for various cavities and temperatures. T
he time structure of the ion bunch is discussed in order to gain insig
ht into the development of LIS cavities. (C) 1998 American Institute o
f Physics.