1,956 research outputs found
Opportunities of studying clustering in nuclei with the TTT3 tandem accelerator in Naples
The availability of a low-energy, high-resolution tandem accelerator in Naples triggered a series of experiments based on “classical” studies of nuclear spectroscopy with charged particles in low energy nuclear reactions. The accurate knowledge of spectroscopy of light nuclei allows to deduce important information on the structure of such systems and on the onset of alpha-clustering phenomena. Light self-conjugated (20Ne) and non–self-conjugated (11,13C) were the subjects of such experiments
First results from the INDRA-FAZIA apparatus on isospin diffusion in 58,64 Ni+58,64 Ni systems at Fermi energies
An investigation of the isospin equilibration process in the reactions 58;64Ni+58;64Ni at two bombarding
energies in the Fermi regime (32 MeV/nucleon and 52 MeV/nucleon) is presented. Data
have been acquired during the first experimental campaign of the coupled INDRA-FAZIA apparatus
in GANIL. Selecting from peripheral to semi-central collisions, both the neutron content of the
quasiprojectile residue and that of the light ejectiles coming from the quasiprojectile evaporation
have been used as probes of the dynamical process of isospin diffusion between projectile and target
for the asymmetric systems. The isospin transport ratio technique has been employed. The relaxation
of the initial isospin imbalance with increasing centrality has been clearly evidenced. The
isospin equilibration appears stronger for the reactions at 32 MeV/nucleon, as expected due to the
longer projectile-target interaction time than at 52 MeV/nucleon. Coherent indications of isospin
equilibration come from the quasiprojectile residue characteristics and from particles ascribed to
the quasiprojectile decay.This work was partially supported by the National Research Foundation of Korea (NRF;
Grant No. 2018R1A5A1025563) and by the Spanish Ministerio de Econom a y Empresa
(PGC2018-096994-B-C22). We acknowledge support from R egion Normandie under R eseau
d'Int er^et Normand FIDNEOS (RIN/FIDNEOS). Many thanks are due to the accelerator
sta of GANIL for delivering a very good quality beam and to the technical sta for the
continuous support
Nuclear symmetry energy at work in heavy ion reactions: new results from the INDRA-FAZIA apparatus
The recently coupled INDRA-FAZIA apparatus offers unique opportunities to investigate heavy ion collisions at Fermi energies by combining the optimal identification capabilities of FAZIA and the large angular coverage of INDRA. We present a selection of the results of the analysis of the first experimental campaign performed with INDRA-FAZIA, in which the four reactions Ni-58,Ni-64+Ni-58,Ni-64 have been studied at two different beam energies (32 and 52 MeV/nucleon) in the intermediate energy regime. The present work is focused on the isospin diffusion effects in semiperipheral and peripheral collisions. A stronger isospin equilibration is found at 32 MeV/nucleon than at 52 MeV/nucleon, as expected due to a shorter projectile-target interaction time in the latter cas
pATsi: Paralogs and singleton genes from Arabidopsis thaliana
Arabidopsis thaliana is widely accepted as a model species in plant
biology. Its genome, due to its small size and diploidy, was the first
to be sequenced among plants, making this species also a reference for
plant comparative genomics. Nevertheless, the evolutionary mechanisms
that shaped the Arabidopsis genome are still controversial. Indeed,
duplications, translocations, inversions, and gene loss events that
contributed to the current organization are difficult to be traced. A
reliable identification of paralogs and single-copy genes is essential
to understand these mechanisms. Therefore, we implemented a dedicated
pipeline to identify paralog genes and classify single-copy genes into
opportune categories. PATsi, a web-accessible database, was organized to
allow the straightforward access to the paralogs organized into networks
and to the classification of single-copy genes. This permits to
efficiently explore the gene collection of Arabidopsis for evolutionary
investigations and comparative genomics
Study of nuclear structure of 13C and 20Ne by low energy nuclear reactions
We report some recent experimental results on the spectroscopy of 13C and 20Ne nuclei by means of low energy nuclear reactions carried out with high resolution electrostatic accelerators. In the case of 13C we investigated the possible existence of a-cluster states above the a emission threshold by means of low energy elastic resonant scattering α+9Be in direct kinematics. Excitation functions show the presence of various resonances that have been reproduced by R-matrix fit. We studied also the structure of 20Ne by means of the 19F(p,α0) reaction at sub-barrier energies. The spectroscopy of 20Ne excited states in the region Ex 13.5-14.0 MeV can be probed by analyzing experimental angular distributions and excitation functions. This reaction plays an important role also in the CNOF cycle and is an important ingredient to describe hydrogen-induced destruction of fluorine in massive stars. For this reason we investigated the trend of S-factor, that has been compared with results previously reported in the literature. © Published under licence by IOP Publishing Lt
Nuclear multifragmentation time-scale and fluctuations of largest fragment size
Distributions of the largest fragment charge, Zmax, in multifragmentation
reactions around the Fermi energy can be decomposed into a sum of a Gaussian
and a Gumbel distribution, whereas at much higher or lower energies one or the
other distribution is asymptotically dominant. We demonstrate the same generic
behavior for the largest cluster size in critical aggregation models for small
systems, in or out of equilibrium, around the critical point. By analogy with
the time-dependent irreversible aggregation model, we infer that Zmax
distributions are characteristic of the multifragmentation time-scale, which is
largely determined by the onset of radial expansion in this energy range.Comment: Accepted for publication in Physical Review Letters on 8/4/201
Isospin Diffusion in Ni-Induced Reactions at Intermediate Energies
Isospin diffusion is probed as a function of the dissipated energy by
studying two systems Ni+Ni and Ni+Au, over the
incident energy range 52-74\AM. Experimental data are compared with the results
of a microscopic transport model with two different parameterizations of the
symmetry energy term. A better overall agreement between data and simulations
is obtained when using a symmetry term with a potential part linearly
increasing with nuclear density. The isospin equilibration time at 52 \AM{} is
estimated to 13010 fm/
Constrained caloric curves and phase transition for hot nuclei
Simulations based on experimental data obtained from multifragmenting
quasi-fused nuclei produced in central Xe + Sn collisions have
been used to deduce event by event freeze-out properties in the thermal
excitation energy range 4-12 AMeV [Nucl. Phys. A809 (2008) 111]. From these
properties and the temperatures deduced from proton transverse momentum
fluctuations, constrained caloric curves have been built. At constant average
volumes caloric curves exhibit a monotonic behaviour whereas for constrained
pressures a backbending is observed. Such results support the existence of a
first order phase transition for hot nuclei.Comment: 14 pages, 5 figures, accepted in Physics Letters
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