The CHIMERA Collaboration uses three main devices in its experimental activities: the CHIMERA 4π detector, the FARCOS correlator (Femtoscope Array for Correlation and Spectroscopy) and the new NARCOS plastic scintillators array prototype for neutrons and light charged particles detection. We discuss two recent examples of physics results obtained with these devices: the first one will focus on the AsyEos-II experiment that studies the EoS (Equation-of-State) of neutron rich matter at high baryon densities. The AsyEos-II experiment will be realized in 2025 at GSI/FAIR and it proposes to probe the EoS at densities around 2ρ0 in Au+Au collisions and beam incident energies from 250 to 800 MeV/A. The second one, in the Fermi energy regime, studies dynamical emission of particles at 20 MeV/A beam energy as a function of projectile and target isospin (CHIFAR experiment). Contributions of the CHIMERA Collaboration for the diagnostic and tagging system of the FraISe facility at LNS based on SiC (Silicon Carbide) technology and recent advances of the NARCOS array project will be briefly discussed.
Recent results and highlights from the CHIMERA Collaboration
De Filippo E.;Russotto P.;Barbon A.;D'Agata G.;Geraci E.;Gnoffo B.;Martorana N. S.;Pagano E. V.;Politi G.;Quattrocchi L.;Zagami C.
2025-01-01
Abstract
The CHIMERA Collaboration uses three main devices in its experimental activities: the CHIMERA 4π detector, the FARCOS correlator (Femtoscope Array for Correlation and Spectroscopy) and the new NARCOS plastic scintillators array prototype for neutrons and light charged particles detection. We discuss two recent examples of physics results obtained with these devices: the first one will focus on the AsyEos-II experiment that studies the EoS (Equation-of-State) of neutron rich matter at high baryon densities. The AsyEos-II experiment will be realized in 2025 at GSI/FAIR and it proposes to probe the EoS at densities around 2ρ0 in Au+Au collisions and beam incident energies from 250 to 800 MeV/A. The second one, in the Fermi energy regime, studies dynamical emission of particles at 20 MeV/A beam energy as a function of projectile and target isospin (CHIFAR experiment). Contributions of the CHIMERA Collaboration for the diagnostic and tagging system of the FraISe facility at LNS based on SiC (Silicon Carbide) technology and recent advances of the NARCOS array project will be briefly discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
