Reaction kinematics and isospin thermometry - PowerPoint PPT Presentation

About This Presentation
Title:

Reaction kinematics and isospin thermometry

Description:

Nuclide identification (TOF, trajectory, IC.) High-resolution velocities from Br. ... Nuclide production. Crossing of b-stability ... – PowerPoint PPT presentation

Number of Views:21
Avg rating:3.0/5.0
Slides: 6
Provided by: paolonap
Category:

less

Transcript and Presenter's Notes

Title: Reaction kinematics and isospin thermometry


1
  • Reaction kinematics and isospin thermometry
  • from inclusive observables
  • Paolo Napolitani
  • GANIL GSI (CHARMS) IPN dOrsay
  • FRagment Separator, GSI
  • High-resolution achromatic mode
  • Inverse kinematics.
  • Liquid hydrogen target
  • Measurements
  • Nuclide identification (TOF, trajectory, IC.)
  • High-resolution velocities from Br.
  • Research and results
  • Kinematics of projectile fragments P.
    Napolitani et al. Phys.Rev. C70 (2004) 054607
  • Isotopic composition, isospin thermometer K.-H.
    Schmidt et al. Nucl.Phys. A710 (2002) 157
  • Thermal multifragmentation induced by protons (1
    A GeV) P. Napolitani, Thesis

Target, Beam-current monitor
BEAM
Position
Br
TOF
Position
Br
Z
2
Kinematical observable Longitudinal velocities
  • 15mr angular acceptance for light fragments only
    longitudinal velocities can be measured
  • Isotopically identified fragments.
  • High resolution due to Br measurement.
  • Inverse kinematics no energy threshold.
    (direct kinematics only Ek tails can be
    measured, centre is missing in corresponding
    velocity spectra!)
  • Experimental yields (dots) are very close to
    the evaluated invariant cross sections (lines).
  • The transition from a chaotic-dominated process
    to a Coulomb- (or expansion-) dominated process
    can be observed.

1 A GeV
Multi-body decay
Few-body decay
3
Results on longitudinal velocities along a NZ1
chain for 136Xe (1 A GeV) Ti,p
  • Chaotic-dominated process and Coulomb- (or
    expansion-) dominated process are mixed with
    different proportions in the two systems.
  • Different mean recoil for the two processes.
  • Asymmetric fragmentation reflected in the
    high velocities and in the double-humped spectra
    of light fragments.

4
Nuclide production

1 A GeV
1 A GeV
b-stability
?N?/Z
evaporation corridor
1 A GeV
Z
  • Crossing of b-stability
  • Overlap of the ?N?/Z observable for systems
    related to equal ?N?/Z of the source.
  • Different cross-section distributions in the
    two reactions reflect different distributions of
    E

5
Isotopic observable thermodynamic properties of
the source
  • Velocity and production observables
  • Nuclides issued of very different distributions
    of E in the two reactions.
  • Isotopic observable
  • independence of the entrance channel gt
    indication of thermal equilibrium.
  • overlap reflects a constant value of T
    associated to the break-up, independent of E.
  • Expected if fragmentation is associated to 1st
    order phase transition.
  • Overlap persists up to A 40 gt large
    asymmetries.
  • Toy model
  • Evaporation corridor not reached the
    evaporation process can be backtraced
  • T 5 0.5 MeV

-
Write a Comment
User Comments (0)
About PowerShow.com