Jacklyn Gates
(Lawrence Berkeley National Lab)
15/05/2015, 09:00
Oral Presentation
Gas-filled and vacuum mode separators have been used for studying the products of fusion-evaporation reactions since the 1960's. Most recently, these separators are being used to study heavy recoils that are produced at rates of atoms per second to atoms per year in complete fusion-evaporation reactions. Due to the low production rates, the present-day separators are highly selective and...
Dr
Dariusz Seweryniak
(Argonne National Laboratory)
15/05/2015, 09:30
Oral Presentation
Gas-filled recoil separators are characterized by an unparalleled transmission for products of fusion-evaporation reactions. They also offer a very good primary beam suppression for reactions with relatively light beams impinging on heavy targets. Consequently, gas-filled separators have been playing an essential role in studies of super-heavy nuclei, which are produced with tiny cross...
Dr
Andrey Popeko
(Flerov laboratory of nuclear reactions, JINR, DUBNA, Russia)
15/05/2015, 09:50
Oral Presentation
Production cross sections of superheavy elements (SHE) with Z = 112 ÷ 118 in fusion reactions are in the range of a few picobarns or less. To get access to heavier nuclides and carry out a detailed study on their properties, a sufficient increase in the beam intensity and the development of separators providing the necessary background suppression are needed. This is the main goal of the...
67.
Measurements of multinucleon transfer reactions of 136Xe + 198Pt for production of exotic nuclei
Dr
Yutaka Watanabe
(Institute of Particle and Nuclear Studies, High Energy Accelerator Research Organization (KEK))
15/05/2015, 10:10
Oral Presentation
Multinucleon transfer (MNT) reaction between two heavy ions at
energies around the Coulomb barrier is considered as a promising candidate to produce and investigate exotic nuclei. Especially in the region of neutron-rich nuclei around the neutron magic number of 126, which is difficult to access by other production methods, the MNT reaction is expected to provide a means to efficiently...