The advent of new facilities for radioactive ion beams mainly rich in neutrons, SPES @ LNL, FRAISE @ LNS and FAIR @ GSI only to give some examples, imposes the joint detection and discrimination of neutrons and charged particles in Heavy radioactive Ion collisions, with high angular and energy resolution. The construction of novel detection systems suitable for this experimental task is both a...
An experiment at the ACCULINNA-2 fragment separator was conducted using a 8He beam and a deuterium target to study neutron-rich systems 6H, 7H, and 4n [1, 2, 3]. This work provided comprehensive insights into their decay modes and interaction mechanisms. For 7H, we report the first experimental evidence of five-body decay. For 6H, sequential decay through 5H g.s.was established [4]. The 4n...
A preliminary study for a novel detector development, designed for integration as a fast veto system in the ACTAR TPC chamber [1],
will be presented. The primary goal of this study is to optimize the detection of low-energy charged beam particles while
ensuring minimal interference by positioning the sensor as far as possible from the TPC’s active region.
The detector consists of a fast...
The nuclear Equation of State (EoS) community is converging towards experiments with exotic in-line fragmentation beams, at energies above 100 MeV/u. Many groups are now interested in the recently upgraded FRIB facility, at the Michigan State University (USA). In the beam energy region there available, the study of dense nuclear matter at supra-saturation density is possible and it allows to...
