Isoscaling in dilute warm nuclear systems

Heavy-ion collisions are a good tool to explore hot nuclear matter below saturation density, ρ 0 . It has been established that if a nuclear system reaches the thermal and chemical equilibrium, this leads to scaling properties in the isotope production when comparing two systems which differ in prot...

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Veröffentlicht in:	Journal of physics. G, Nuclear and particle physics Nuclear and particle physics, 2024-01, Vol.51 (1), p.15104
Hauptverfasser:	Rebillard-Soulié, Alex, Bougault, Rémi, Pais, Helena, Borderie, Bernard, Chbihi, Abdelouahad, Ciampi, Caterina, Fable, Quentin, Frankland, John, Galichet, Emmanuelle, Génard, Tom, Gruyer, Diégo, Le Neindre, Nicolas, Lombardo, Ivano, Lopez, Olivier, Manduci, Loredana, Pârlog, Marian, Verde, Giuseppe
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Schlagworte:	nuclear equation of state Nuclear Experiment nuclear physics nuclear statistical equilibrium model Physics
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container_title	Journal of physics. G, Nuclear and particle physics
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creator	Rebillard-Soulié, Alex Bougault, Rémi Pais, Helena Borderie, Bernard Chbihi, Abdelouahad Ciampi, Caterina Fable, Quentin Frankland, John Galichet, Emmanuelle Génard, Tom Gruyer, Diégo Le Neindre, Nicolas Lombardo, Ivano Lopez, Olivier Manduci, Loredana Pârlog, Marian Verde, Giuseppe
description	Heavy-ion collisions are a good tool to explore hot nuclear matter below saturation density, ρ 0 . It has been established that if a nuclear system reaches the thermal and chemical equilibrium, this leads to scaling properties in the isotope production when comparing two systems which differ in proton fraction. This article presents a study of the isoscaling properties of an expanding gas source exploring different thermodynamic states (density, temperature, proton fraction). This experimental work highlights the existence of an isoscaling relationship for hydrogen and 3 He, 4 He helium isotopes which agrees with the hypothesis of thermal and chemical equilibrium. Moreover, this work reveals the limitations of isoscaling when the two systems differ slightly in total mass and temperature. Also, a discrepancy has been observed for the 6 He isotope, which could be explained by finite size effects or by the specific halo nature of this cluster.
doi_str_mv	10.1088/1361-6471/ad0edd
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title	Isoscaling in dilute warm nuclear systems
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