EURISOL Design Study: Toward the Ultimate ISOL Facility for Europe

“…3 we display the predicted production rates ions s −1 impinging onto a 1 g/cm 2 thick beryllium target. This scenario corresponds to the two-stage reaction scheme proposed for the future EURISOL facility [30] where the high-power target station could produce up to 10 15 neutron-induced fissions of 238 U per second. Taking into account an extraction efficiency from the ISOL stage for 132 Sn of 42% [16] and a total post-acceleration efficiency of 10% [30] one obtains the mentioned intensity for a 132 Sn beam accelerated at few hundred MeVs per nucleon.…”

“…This scenario corresponds to the two-stage reaction scheme proposed for the future EURISOL facility [30] where the high-power target station could produce up to 10 15 neutron-induced fissions of 238 U per second. Taking into account an extraction efficiency from the ISOL stage for 132 Sn of 42% [16] and a total post-acceleration efficiency of 10% [30] one obtains the mentioned intensity for a 132 Sn beam accelerated at few hundred MeVs per nucleon. The results indicate that the proposed production scheme would not only overcome the limited efficiency of ISOL facilities for the extraction of isotopes of refractory elements between Zr and Rh, but also would produce a large variety of neutron-rich nuclei in this region of the chart of nuclides.…”

Production of neutron-rich nuclei in fragmentation reactions of Sn132 projectiles at relativistic energies

“…3 we display the predicted production rates ions s −1 impinging onto a 1 g/cm 2 thick beryllium target. This scenario corresponds to the two-stage reaction scheme proposed for the future EURISOL facility [30] where the high-power target station could produce up to 10 15 neutron-induced fissions of 238 U per second. Taking into account an extraction efficiency from the ISOL stage for 132 Sn of 42% [16] and a total post-acceleration efficiency of 10% [30] one obtains the mentioned intensity for a 132 Sn beam accelerated at few hundred MeVs per nucleon.…”

“…This scenario corresponds to the two-stage reaction scheme proposed for the future EURISOL facility [30] where the high-power target station could produce up to 10 15 neutron-induced fissions of 238 U per second. Taking into account an extraction efficiency from the ISOL stage for 132 Sn of 42% [16] and a total post-acceleration efficiency of 10% [30] one obtains the mentioned intensity for a 132 Sn beam accelerated at few hundred MeVs per nucleon. The results indicate that the proposed production scheme would not only overcome the limited efficiency of ISOL facilities for the extraction of isotopes of refractory elements between Zr and Rh, but also would produce a large variety of neutron-rich nuclei in this region of the chart of nuclides.…”

Production of neutron-rich nuclei in fragmentation reactions of Sn132 projectiles at relativistic energies

Demonstration of charge breeding in a compact room temperature electron beam ion trap

Optimization studies of the CERN-ISOLDE neutron converter and fission target system