141 research outputs found
First tests of superthin, ion-implanted silicon strip detectors produced by low-temperature technique
Structure effects in Ne-20+Pb-208 quasi-elastic scattering
Preliminary results of an analysis of experiments devoted to a study of the sensitivity of the 20Ne + 208Pb quasi-elastic angular distributions at two near-barrier energies and the previously measured corresponding
barrier distribution to the value of the nuclear quadrupole deformation length of 20Ne are reported
Energy measurement and fragment identification using digital signals from partially depleted Si detectors
A study of identification properties of a Si-Si DE-E telescope exploiting an
underdepleted residual-energy detector has been performed. Five different bias
voltages have been used, one corresponding to full depletion, the others
associated with a depleted layer ranging from 90% to 60% of the detector
thickness. Fragment identification has been performed using either the DE-E
technique or Pulse Shape Analysis (PSA). Both detectors are reverse mounted:
particles enter from the low field side, to enhance the PSA performance. The
achieved charge and mass resolution has been quantitatively expressed using a
Figure of Merit (FoM). Charge collection efficiency has been evaluated and the
possibility of energy calibration corrections has been considered. We find that
the DE-E performance is not affected by incomplete depletion even when only 60%
of the wafer is depleted. Isotopic separation capability improves at lower bias
voltages with respect to full depletion, though charge identification
thresholds are higher than at full depletion. Good isotopic identification via
PSA has been obtained from a partially depleted detector whose doping
uniformity is not good enough for isotopic identification at full depletion.Comment: 13 pages, 10 figures 5 tables; submitted to European Physical Journal
Are the weak channels really weak?
The transfer probabilities for 20Ne + 90Zr and 20Ne + 92Zr at energies near the Coulomb barrier were measured. This quantity turned out to be very similar for both Zr isotopes and does not explain the observed
differences in the barrier height distributions for these systems
Quasiprojectile breakup and isospin equilibration at Fermi energies: an indication of longer projectile-target contact times?
An investigation of the quasiprojectile breakup channel in semiperipheral and
peripheral collisions of Ni+Ni at 32 and 52 MeV/nucleon is
presented. Data have been acquired in the first experimental campaign of the
INDRA-FAZIA apparatus in GANIL. The effect of isospin diffusion between
projectile and target in the two asymmetric reactions has been highlighted by
means of the isospin transport ratio technique, exploiting the
neutron-to-proton ratio of the quasiprojectile reconstructed from the two
breakup fragments. We found evidence that, for the same reaction centrality, a
higher degree of relaxation of the initial isospin imbalance is achieved in the
breakup channel with respect to the more populated binary output, possibly
indicating the indirect selection of specific dynamical features. We have
proposed an interpretation based on different average projectile-target contact
times related to the two exit channels under investigation, with a longer
interaction for the breakup channel. The time information has been extracted
from AMD simulations of the studied systems coupled to GEMINI++: the model
calculations support the hypothesis hereby presented
FAZIA applications
International audienceThe present status and the perspectives of the FAZIA project are presented. The main achievements in terms of identification thresholds and isotopic resolution are discussed, together with the adopted technical solutions. The detector is particularly well suited for the investigation of isospin transport phenomena at intermediate beam energies; perspectives to reduce the identification thresholds to cope with lower energy ISOL beams are briefly introduced. Some experimental results concerning isospin transport effects obtained with a test telescope are presented. The study of isospin transport phenomena can give information on the symmetry energy term of the nuclear equation of state by comparing the experimental results on isospin related observables with the predictions of transport codes
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