FAZIA: A new generation array for nuclear dynamics and EoS experiments at intermediate energies
Valdre S.
Camaiani A.
Verde G.
Piantelli S.
Casini G.
Le Neindre N.
Baldesi L.
Barlini S.
Bini M.
Boiano A.
Bonnet E.
Borderie B.
Bougault R.
Chbihi A.
Cialdai C.
Ciampi C.
Dell'Aquila D.
Dueñas J.A.
Edelbruck P.
Fable Q.
Fabris D.
Frankland J.D.
Frosin C.
Gramegna F.
Gruyer D.
Henri M.
Hong B.
Kim S.
Kordyasz A.
Kozik T.
Kweon M.J.
Lombardo I.
Lopez O.
Marchi T.
Mazurek K.
Olmi A.
Ordine A.
Ottanelli P.
Park J.H.
Parlog M.
Pasquali G.
Pellegriti M.G.
Poggi G.
Rebillard-Soulie A.
Redigolo L.
Salomon F.
Scaringella M.
Stefanini A.A.
Tobia G.
Tortone G.
Upadhyahya S.
Vient E.
Vigilante M.
International Journal of Modern Physics A
Doi 10.1142/S0217751X24440081
2025-01-01
Citas: 0
© World Scientific Publishing Company.Constraining the nuclear equation of state (EoS) parameters makes it possible to better understand the properties of the matter that constitutes our Universe. Many probes can be used to test the EoS, from the observation of neutron star mergers to heavy-ion collisions at intermediate energies. The fragments and particles emitted in collisions need to be identi¯ed with isotopic discrimination in order to give valuable information. In this regard, a speci¯cally designed apparatus, such as FAZIA, may be used to study the equation of state. This review summarizes the advanced characteristics of the FAZIA detector array and the achievements obtained by the FAZIA collaboration in the last 15 years.
Equation of state, heavy-ion collisions, solid state detectors
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