Study of isospin diffusion from 40,48^{40,48}Ca+40,48+^{40,48}Ca experimental data at Fermi energies: direct comparisons with transport model calculations

This article presents an investigation of isospin equilibration in cross-bombarding $^{40,48}$Ca$+^{40,48}$Ca reactions at $35$ MeV/nucleon, by comparing experimental data with filtered transport model calculations. Isospin diffusion is studied using the evolution of the isospin transport ratio with centrality. The asymmetry parameter $\delta=(N-Z)/A$ of the quasiprojectile (QP) residue is used as isospin-sensitive observable, while a recent method for impact parameter reconstruction is used for centrality sorting.A benchmark of global observables is proposed to assess the relevance of the antisymmetrized molecular dynamics (AMD) model, coupled to GEMINI++, in the study of dissipative collisions. Our results demonstrate the importance of considering cluster formation to reproduce observables used for isospin transport and centrality studies.Within the AMD model, we prove the applicability of the impact parameter reconstruction method, enabling a direct comparison to the experimental data for the investigation of isospin diffusion.For both, we evidence a tendency to isospin equilibration with an impact parameter decreasing from $9$ to $3$ fm, while the full equilibration is not reached.A weak sensitivity to the stiffness of the equation of state employed in the model is also observed, with a better reproduction of the experimental trend for the neutron-rich reactions

Study of isospin diffusion from 40,48^{40,48}Ca+40,48+^{40,48}Ca experimental data at Fermi energies: direct comparisons with transport model calculations

This article presents an investigation of isospin equilibration in cross-bombarding $^{40,48}$Ca$+^{40,48}$Ca reactions at $35$ MeV/nucleon, by comparing experimental data with filtered transport model calculations. Isospin diffusion is studied using the evolution of the isospin transport ratio with centrality. The asymmetry parameter $\delta=(N-Z)/A$ of the quasiprojectile (QP) residue is used as isospin-sensitive observable, while a recent method for impact parameter reconstruction is used for centrality sorting.A benchmark of global observables is proposed to assess the relevance of the antisymmetrized molecular dynamics (AMD) model, coupled to GEMINI++, in the study of dissipative collisions. Our results demonstrate the importance of considering cluster formation to reproduce observables used for isospin transport and centrality studies.Within the AMD model, we prove the applicability of the impact parameter reconstruction method, enabling a direct comparison to the experimental data for the investigation of isospin diffusion.For both, we evidence a tendency to isospin equilibration with an impact parameter decreasing from $9$ to $3$ fm, while the full equilibration is not reached.A weak sensitivity to the stiffness of the equation of state employed in the model is also observed, with a better reproduction of the experimental trend for the neutron-rich reactions

Study of isospin diffusion from 40,48^{40,48}Ca+40,48+^{40,48}Ca experimental data at Fermi energies: direct comparisons with transport model calculations

This article presents an investigation of isospin equilibration in cross-bombarding $^{40,48}$Ca$+^{40,48}$Ca reactions at $35$ MeV/nucleon, by comparing experimental data with filtered transport model calculations. Isospin diffusion is studied using the evolution of the isospin transport ratio with centrality. The asymmetry parameter $\delta=(N-Z)/A$ of the quasiprojectile (QP) residue is used as isospin-sensitive observable, while a recent method for impact parameter reconstruction is used for centrality sorting.A benchmark of global observables is proposed to assess the relevance of the antisymmetrized molecular dynamics (AMD) model, coupled to GEMINI++, in the study of dissipative collisions. Our results demonstrate the importance of considering cluster formation to reproduce observables used for isospin transport and centrality studies.Within the AMD model, we prove the applicability of the impact parameter reconstruction method, enabling a direct comparison to the experimental data for the investigation of isospin diffusion.For both, we evidence a tendency to isospin equilibration with an impact parameter decreasing from $9$ to $3$ fm, while the full equilibration is not reached.A weak sensitivity to the stiffness of the equation of state employed in the model is also observed, with a better reproduction of the experimental trend for the neutron-rich reactions

Study of isospin diffusion from 40,48^{40,48}Ca+40,48+^{40,48}Ca experimental data at Fermi energies: direct comparisons with transport model calculations

This article presents an investigation of isospin equilibration in cross-bombarding $^{40,48}$Ca$+^{40,48}$Ca reactions at $35$ MeV/nucleon, by comparing experimental data with filtered transport model calculations. Isospin diffusion is studied using the evolution of the isospin transport ratio with centrality. The asymmetry parameter $\delta=(N-Z)/A$ of the quasiprojectile (QP) residue is used as isospin-sensitive observable, while a recent method for impact parameter reconstruction is used for centrality sorting.A benchmark of global observables is proposed to assess the relevance of the antisymmetrized molecular dynamics (AMD) model, coupled to GEMINI++, in the study of dissipative collisions. Our results demonstrate the importance of considering cluster formation to reproduce observables used for isospin transport and centrality studies.Within the AMD model, we prove the applicability of the impact parameter reconstruction method, enabling a direct comparison to the experimental data for the investigation of isospin diffusion.For both, we evidence a tendency to isospin equilibration with an impact parameter decreasing from $9$ to $3$ fm, while the full equilibration is not reached.A weak sensitivity to the stiffness of the equation of state employed in the model is also observed, with a better reproduction of the experimental trend for the neutron-rich reactions

Low-temperature technique of thin silicon ion implanted epitaxial detectors

International audienceA new technique of large-area thin ion implanted silicon detectors has been developed withinthe R&D performed by the FAZIA Collaboration. The essence of the technique is the application of a lowtemperaturebaking process instead of high-temperature annealing. This thermal treatment is performedafter B+ ion implantation and Al evaporation of detector contacts, made by using a single adjustedAl mask. Extremely thin silicon pads can be therefore obtained. The thickness distribution along theX and Y directions was measured for a prototype chip by the energy loss of α-particles from 241Am(Eα = 5.5MeV). Preliminary tests on the first thin detector (area ≈ 20 × 20mm2) were performed atthe INFN-LNS cyclotron in Catania (Italy) using products emitted in the heavy-ion reaction 84Kr(E =35AMeV)+112Sn. The ΔE−E ion identification plot was obtained using a telescope consisting of our thinΔE detector (21 μm thick) followed by a typical FAZIA 510 μm E detector of the same active area. Thecharge distribution of measured ions is presented together with a quantitative evaluation of the quality ofthe Z resolution. The threshold is lower than 2AMeV depending on the ion charge