Title: Awesome PowerPoint Background Template
1JINR SCIENTIFIC COUNCIL 102nd Session, 27-28
September 2007, Dubna
ACTIVITY for the DRIBs PROJECT
S.N. DMITRIEV Flerov Laboratory of Nuclear
Reactions, Joint Institute for Nuclear Research
2U400M CYCLOTRON
3(No Transcript)
4DRIBs Transport Gallery
5 U 400 CYCLOTRON
6DRIBs Project
7DRIBs complex equipment
- Power supply for magnet 165 units
- ECR-source - 2
- Vacuum pumps - 49
- Beam current diagnostics 35
- Diagnostic station for RIB 9
- RF systems 9
8DRIBs from 2004 to 2006
- 2004 year Run
- 2006 year Run
-
9Program of modernization of the FLNR cyclotron
complex
- 1. U400M
- 2. U400 U400R.
- 3. MT25
10Modernization of the U400M cyclotron
- to increase the light ion beams intensity by the
factor of 4 5 for producing of secondary
beams, - to improve the quality of beams,
- to increase the maximal energy of accelerated
ions up to 100 MeV/A, - to improve the radiation safety conditions,
- to accelerate low (615 MeV/A) energy ions
(move some experiments from U400 to U400M), - to extract the beams to the second direction.
11February September 2007
- new axial injection line
- new warm ECR ion source (DECRIS-2)
- new magnetic structure of the central region of
U400MR - second beam extraction system
- new producing target for secondary beams
- new local radiation shielding
- superconducting 18-GHz primary beam ion source
DECRIS-SC2 (under testing) - warm 14-GHz secondary beam ion source (under
testing). -
12 - Total modernization of the target unit
- Development design of the disposable,
nonseparable, quick-detachable, target block. - 6He output diagnostics from the catcher.
- Creation of effective neutron traps around the
target. - Ajustment of the new 14 GHz ion source.
- Generation and acceleration of the He8.
13New axial injection line
14New 14 GHz Ion source
15 Low energy beam line
16 New Catcher
17Fusion, transfer and breakup reaction mechanisms
induced by halo nucleus 6He
JINR (Dubna), CSNSM (Orsay), IRS (Strasbourg),
ULB (Bruxelles), Vanderbilt Univ. (USA)
166Er(6He,6n)166Yb 165Ho(6Li,5n)166Yb ltgt
166Er(4He,4n)166Yb //PRC48(1993)319//
3
2
1
6He 166Er 172Yb 166Yb 6n
6He 166Er 170Yb 2n
6He 166Er 168Er 4He
DRIBs Nov.-Dec. 07 Chan.2 U400
18Deep sub-barrier fusion of 6He 206Pb
For E lt 20 MeV (2n channel) ? MSP-144 (focal
plane)
SETUP FOR ACTIVATION MEASUREMENTS with MSP-144
dE/dx40keV/mm ?target20mm ?E ?0.4MeV
?E?2.5MeV
astrophysics, nucleosynthesis
19U400 ? U400R
- Beam intensity of masses A 50 and
- energy 6 MeV/n up to 3 ?µa.
- Ion energy variation on the target with factor 5.
- Energy spread on the target up to 10-3.
- Beam emittance on the target 10 p mm mrad.
- Cyclotron average magnetic field level
- from 0,8 up to 1,8 T.
- New equipment.
20U400 ? U400R
Plan of modernization
? Jobs 2007 2007 2007 2007 2008 2008 2008 2008 2009 2009 2009 2009
? Jobs 1 2 3 4 1 2 3 4 1 2 3 4
1. Drawing
2. Creation and equipment completion
3. Assembling
4. Equipment and beam testing
21MICROTRON
- MT25 generator of primary electron beam for
DRIBs II phase. - Main problem old subsystems equipment.
- Modernization of MT25 is connected with DRIBs II
phase.
22JINR SCIENTIFIC COUNCIL 102nd Session, 27-28
September 2007, Dubna
ACTIVITY for the DRIBs PROJECT
S.N. DMITRIEV Flerov Laboratory of Nuclear
Reactions, Joint Institute for Nuclear Research
THANKS FOR YOUR ATTENTION
23Estimated results and experimental method
- Immediate object proposed for the primary
experiments is the study of complete fusion and
breakup reaction of 6He halo nuclei taking place
in the interactions with medium mass targets at
the energy range E5-10 MeV/nucleun. The
experiment is aimed at the following tasks - 1. In a range of Elab55-62 MeV the cross
section will be measured for the
166Er(6He,6n)166Yb reaction. Data on 5n
evaporation will be also obtained. - Reaction products resulting from the 6He breakups
will be observed too. - 2. Population probabilities will be measured for
the levels of the ground-state rotational band in
166Yb. These data will be compared with
calculations treating both the neutron
evaporation cascade and the multiple emission of
g rays at the stage of the nucleus descent along
the yrast line. The search of a peculiarity in
the values of orbital momentum allowed for the
compound nucleus formation should be possible. It
will interesting to know if there are orbital
momentum going beyond the typical lcrit values
peculiar to non-halo nuclei. - 3. In the case of the breakup reactions
6He166Ergt170Yb2n and 6He166Ergt168Era
energy sharing among the breakup cluster (2n or
a) and recoil nucleus will be estimated from the
measured yields of the evaporation residues and
the energy spectra En and Ea. - 4. Additionally, 6Li165Ho and 6Li166Er
reactions will be studied at quite similar
projectile energies 50-57 MeV. In the 1st case
the same evaporation residue 166Yb populated in
5n channel will be investigated and in the 2nd
the products of the 6Li breakup ending with the
capture of its a cluster by 166Er will be
studied. - Beam time estimation 4 weeks per 6He and 1 week
per 6Li.