162 research outputs found
Constraints on the density dependence of the symmetry energy
Collisions involving 112Sn and 124Sn nuclei have been simulated with the
improved Quantum Molecular Dynamics transport model. The results of the
calculations reproduce isospin diffusion data from two different observables
and the ratios of neutron and proton spectra. By comparing these data to
calculations performed over a range of symmetry energies at saturation density
and different representations of the density dependence of the symmetry energy,
constraints on the density dependence of the symmetry energy at sub-normal
density are obtained. Results from present work are compared to constraints put
forward in other recent analysis.Comment: 8 pages, 4 figures,accepted for publication in Phy. Rev. Let
Probing the density dependence of symmetry energy at subsaturation density with HICs
The reaction mechanism of the central collisions and peripheral collisions
for at is investigated within the
framework of the Improved Quantum Molecular Dynamics model. The results show
that multifragmentation process is an important mechanism at this energy
region, and the influence of the cluster emission on the double n/p ratios and
the isospin transport ratio are important. Furthermore, three observables,
double n/p ratios, isospin diffusion and the rapidity distribution of the ratio
for at E/A=50MeV are analyzed with the
Improved Quantum Molecular Dynamics model. The results show that these three
observables are sensitive to the density dependence of the symmetry energy. By
comparing the calculation results to the data, the consistent constraint on the
density dependence of the symmetry energy from these three observables is
obtained.Comment: IWND2009 proceedin
Nuclear Matter and Nuclear Dynamics
Highlights on the recent research activity, carried out by the Italian
Community involved in the "Nuclear Matter and Nuclear Dynamics" field, will be
presented.Comment: Proceedings of the 12th Conference on Problems in Theoretical Nuclear
Physics, to appear in Journal of Physics, Conference Serie
The influence of cluster emission and the symmetry energy on neutron-proton spectral double ratios
Emissions of free neutrons and protons from the central collisions of
124Sn+124Sn and 112Sn+112Sn reactions are simulated using the Improved Quantum
Molecular Dynamics model with two different density dependence of the symmetry
energy in the nuclear equation of state. The constructed double ratios of the
neutron to proton ratios of the two reaction systems are found to be sensitive
to the symmetry terms in the EOS. The effect of cluster formation is examined
and found to affect the double ratios mainly in the low energy region. In order
to extract better information on symmetry energy with transport models, it is
therefore important to have accurate data in the high energy region which also
is affected minimally by sequential decays.Comment: 11 pages, 4 figure
Neutron and Proton Transverse Emission Ratio Measurements and the Density Dependence of the Asymmetry Term of the Nuclear Equation of State
Recent measurements of pre-equilibrium neutron and proton transverse emission
from (112,124)Sn+(112,124)Sn reactions at 50 MeV/A have been completed at the
National Superconducting Cyclotron Laboratory. Free nucleon transverse emission
ratios are compared to those of A=3 mirror nuclei. Comparisons are made to BUU
transport calculations and conclusions concerning the density dependence of the
asymmetry term of the nuclear equation-of-state at sub-nuclear densities are
made. The double-ratio of neutron-proton ratios between two reactions is
employed as a means of reducing first-order Coulomb effects and detector
efficiency effects. Comparison to BUU model predictions indicate a density
dependence of the asymmetry energy that is closer to a form in which the
asymmety energy increases as the square root of the density for the density
region studied. A coalescent-invariant analysis is introduced as a means of
reducing suggested difficulties with cluster emission in total nucleon
emission. Future experimentation is presented
Extrapolation of neutron-rich isotope cross-sections from projectile fragmentation
Using the measured fragmentation cross sections produced from the 48Ca and
64Ni beams at 140 MeV per nucleon on 9Be and 181Ta targets, we find that the
cross sections of unmeasured neutron rich nuclei can be extrapolated using a
systematic trend involving the average binding energy. The extrapolated
cross-sections will be very useful in planning experiments with neutron rich
isotopes produced from projectile fragmentation. The proposed method is general
and could be applied to other fragmentation systems including those used in
other radioactive ion beam facilities.Comment: accepted for publication in Europhysics Letter
Probing the Symmetry Energy with Heavy Ions
Constraints on the EoS for symmetric matter (equal neutron and proton
numbers) at supra-saturation densities have been extracted from energetic
collisions of heavy ions. Collisions of neutron-deficient and neutron-rich
heavy ions now provide initial constraints on the EoS of neutron-rich matter at
sub-saturation densities. Comparisons are made to other available constraints.Comment: 7 pages, 4 figures, Erice 2008 proceedin
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