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Fragmentation of very neutronrich

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Title: Fragmentation of very neutronrich


1
Fragmentation of very neutron-rich projectiles
around 132Sn GSI experiment S294
Universidad de Santiago de Compostela,
Spain Centre dEtudes Nucleaires
Bordeaux-Gradignan, France Warsow University,
Poland GSI Darmstadt, Germany VINCA-Institute
Belgrade, Serbia Institute of Physics,
Bratislava, Slovakia
GSI Feb.06
2
Motivation
  • Production of extremely neutron-rich isotopes
    (EURISOL DS task 11.2)
  • (two-step schemes fission cold
    fragmentation)

n,p 238U ? 132Sn Be ? X
  • Ground state properties of extremely
    neutron-rich isotopes
  • Total interaction cross sections rms matter
    distributions
  • Proton knock-out rms charge distributions,
    binding energies
  • Proton and neutron pickup charge versus mass
    distribution

GSI Feb.06
3
Motivation
  • Production of medium-mass neutron-rich isotopes

Fission cold fragmentation
n,p 238U ? 132Sn Be ? X
GSI Feb.06
4
Motivation
  • Residue production in fission reactions
  • 238U(950 A MeV)Pb
  • (T. Enqvist et al., NPA 658 (1999) 47)
  • 238U(1000 A MeV)p
  • (M. Bernas et al., NPA 725 (2003) 213)
  • 238U(1000 A MeV)d
  • (J. Pereira et al., PhD, USC (2004))

GSI Feb.06
5
Motivation
  • Residue production in cold-fragmentation
    reactions
  • Proton-removal channel
  • only protons are abraded
  • and the induced excitation
  • energy remains bellow the
  • particle emission threshold
  • 197Au(950 A MeV)Be
  • (J. Benlliure et al., NPA 660 (1999) 87)

GSI Feb.06
6
Motivation
  • Fragmentation of neutron-rich projectiles

Cold fragmentation is not well understood for
neutron-rich projectiles
GSI Feb.06
7
Motivation
  • Production cross sections of neutron-rich
    residues in the fragmentation
  • of 132Sn
  • 1-4 proton removal cross sections

? neutron separation enegies (W.A.
Friedman et al., PRC 67 (2003) 051601R)
GSI Feb.06
8
Motivation
  • Description of the residue production in
    fragmentation reactions

(Abrasion-ablation model)
1 Abrasion phase (excited prefragment)
2 Ablation (evaporation) phase
  • Mass loss impact parameter
  • matter/charge distribution
  • N/Z hypergeometrical distribution
  • Excitation energy isotopic
  • distributions
  • Binding energiestemperature
  • Some of these parameters can be determined from
    specific
  • reaction channels

GSI Feb.06
9
Motivation
  • Mass and charge rms radii from specific reaction
    channels
  • Total interaction cross sections rms matter
    distributions

GSI Feb.06
10
Motivation
  • Mass and charge rms radii from specific reaction
    channels
  • Total interaction cross sections rms matter
    distributions
  • Proton knock-out rms charge distribution

GSI Feb.06
11
Motivation
  • Mass and charge rms radii from specific reaction
    channels
  • Total interaction cross sections rms matter
    distributions
  • Proton knock-out rms charge distribution
  • Proton and neutron pickup charge versus mass
    distribution

Nn ? D ? Np p- Np ? D ? Nn p
208Pbp,d ? 208Bip-
R. J. Lombard et al., Europhys. Lett. 6 (1988)
323 A. Kelic et al., PRC 70 (2004) 064608
v(cm/ns)
GSI Feb.06
12
Proposed experiment
  • Production of neutron-rich fission residues

238U(950 A MeV)Pb ? 124-132Sn
  • Fragmentation of neutron-rich fission residues

132Sn Be ? 131In,130Cd,129Ag,128Pd 1-4
proton removal s1p,2p,3p,4p 20-1 10-4
mb 124-132Sn Be ? X
total interaction sint 2 b 124-132Sn Be
? 123-131In 1 proton removal
s1p 20 mb 124-132Sn Be ? 124-132In
charge pickup sD?pp- 0.1
mb 124-132Sn Be ? 125-133Sn
neutron pickup sD?np 5 mb
GSI Feb.06
13
Experimental details
S0-S2 238U(950 A MeV)Pb ? 124-132Sn
DZ/Z 5 10-3 DBr/r 3 10-4 DToF 150 ps L
18 m
DA/A 4.5 10-3
S2-S4 124-132Sn Be ? X
DZ/Z 7 10-3 DBr/r 3 10-4 DToF 150 ps L
36 m
DA/A 2.4 10-3
GSI Feb.06
14
Experimental details
238U(1 A GeV)d ? 1XXSn
5 different settings centered on 124Sn, 126Sn,
128Sn, 130Sn, 132Sn
GSI Feb.06
15
Beam time request
  • Production yields and acquisition time

S0-S2 238U(950 A MeV)Pb ? 124-132Sn
  • 238U beam intensity 108 ions s-1
  • 208Pb target 1500 mg/cm2
  • total rate at S2 26000 ion s-1
  • 132Sn rate at S2 1000 ions s-1

Limiting factor DAQ unless S1 degrader!!!
S2-S4 124-132Sn Be ? X
  • Reaction probability and acquisition time with a
    2.6 g/cm2 Be target
  • total interaction 2 b ? 5 min. lt 1
    statistical accuracy
  • 1p 25 mb ? 15 min.
    1
  • 2p 0.3 mb ? 5 hours
    1
  • 3p 5 mb ? 3 days
    7
  • 4p 0.1 mb ? 1-2 per
    day
  • proton pickup 0.1 mb ? 4 hours 6

GSI Feb.06
16
Beam time request
Total requested time main beam time (238U) ?
7 days (21 shifts) 6 days accepted parasitic
beam (136Xe) ? 5 days accepted
GSI Feb.06
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