bing guo for nuclear astrophysics group china institute of atomic energy
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(p, g ) reaction via transfer reaction of mirror nuclei and direct measurement of 11 C(p, g ) 12 N at DRAGON. Bing Guo For nuclear astrophysics group China Institute of Atomic Energy The Sixth China Japan Joint Nuclear Physics Symposium May, 2006. Content. - PowerPoint PPT PresentationTRANSCRIPT
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(p,) reaction via transfer reaction of mirror nuclei and direct measurement of 11C(p,)12N at DRAGON Bing Guo
For nuclear astrophysics groupChina Institute of Atomic Energy
The Sixth China Japan Joint Nuclear Physics Symposium
May, 2006
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Content (p,) reaction via transfer reaction
of mirror nuclei. 1. Mirror symmetry 2. 8Li(d,p)9Li and 8B(p,)9C
3. 26Mg(d,p)27Mg and 26Si(p,)27P
Direct measurement of 11C(p,)12N at DRAGON.
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A(d,p)B angular distribution
Neutron ANC of virtual decay B → A + n
Proton ANC of virtual decay D → C + p and proton width
Astrophysical S-factor and rate of the C(p,)D reaction
Mirror symmetryIf A and C, B and D are mirror nuclei, then
DWBA analysis
Radiative capture theory
Charge symmetry
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Neutron ANC from A(d,p)B
L. D. Blokhintsev et al., Sov. J. Part. Nucl. 8, 485 (1977).
is the ANC of d → p + n.is the ANC of B → A + n.
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Proton ANC and width of mirror nucleus D
N. Timofeyuk et al., PRL. 91, 232501 (2003). BACK
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8Li(d,p)9Li and 8B(p,)9C
Motivation:8Li(d,p)9Li is one of important reactions in the
inhomogeneous big bang models*, can serve as a surrogate reaction to extract the 8B(p,)9C and 8Li(n,)9Li reaction rates for the direct capture.
*T. Kajino and R. N. Boyd, Astrophys. J. 359, 267 (1990).
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Secondary beam facility
X. Bai et al., NPA 588, 273c (1995).W. Liu et al., NIM B204, 62 (2003).
Dipole Gas target
Quadrupoles
Wien Filter
MCP1
MCP2Reaction
Chamber
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Experimental setup
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9Li particle identification
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Angular distribution of 8Li(d,p)9Li
=7.9 ± 2.0 mb
Z.H. Li, W.P. Liu, X.X. Bai, B. Guo et al., Phys. Rev. C 71, 052801(R) (2005).
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8B(p,)9C
7Be(p,)8B(p,)9C(a,p)12N(+)12C is one of possible alternative paths to 3a process ;
8B(p,)9C may play an important role in the evolution of massive stars with very low metallicities.
M. Wiescher et al., Astrophys. J. 343, 352 (1989).G.M. Fuller et al., Astrophys. J. 307, 675 (1986).
Motivation:
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Current status and our proposal on 8B(p,)9C
Several theoretical studies; Proton transfer 8B(d,n)9C reaction by RIKEN; Coulomb dissociation measurement by RIKEN; Knockout reactions of 9C by Texas A&M
University and Michigan State University; Neutron transfer 8Li(d,p)9Li reaction and charge
symmetry of mirror nuclei.
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8Li(d,p)9Li is peripheral?
9 2 11,3/ 2( ) 1.33 0.33LiC fm
9 2 11,3/ 2( ) 1.14 0.29CC fm
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Astrophysical S-factor of 8B(p,)9C
This work presents an independent examination to the existing studies.
M. Wiescher et al., APJ. 343, 352 (1989).P. Descouvemont, NPA 646, 261 (1999).P. Mohr, PRC 67, 065802 (2003).D. Beaumel et al., PLB 514, 226 (2001).L. Trache et al., PRC 66, 035801 (2002).T. Motobayashi, NPA 719, 65c (2003).J. Enders et al., PRC 67, 064301 (2003).
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8B(p,)9C reaction rate
B. Guo, Z.H. Li, W.P. Liu et al., Nucl. Phys. A 761, 162 (2005).
BACK
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26Al5+7.4×105 yr
26Mg 0+ 0
2+ 1.809
The 1.809 MeV -ray is an ideal observable for nova and x-ray burst.
26Si(p,)27P reaction
J. José et al., Astrophys. J. 520, 347 (1999).O. Koike et al., Astron. Astrophys. 342, 464 (1999).
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Current status and our proposal on 26Si(p,)27P
Several theoretical studies ; Measurement of resonant capture via Coulomb
dissociation method by RIKEN ; No measurement of direct capture ;
Determination of direct and resonant captures through neutron transfer reaction 26Mg(d,p)27Mg and charge symmetry of mirror nuclei.
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Angular distribution of 26Mg(d,p)27Mg
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26Mg(d,p)27Mg is peripheral?
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ANCs of 27Mg and 27P
27P
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Proton widths for 27P
H. Herndl et al., Phys. Rev. C 52, 1078 (1995).J. A. Caggiano et al., Phys. Rev. C 64, 025802 (2001).
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Astrophysical S-factor of 26Si(p,)27P
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26Si(p,)27P reaction rate
B. Guo, Z.H. Li, X.X. Bai et al., Phys. Rev. C 73, 048801 (2006).
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More reactions we can do 6Li(d,p)7Li → 6Li(p,)7Be 7Li(d,p)8Li → 7Be(p,)8B 11B(d,p)12B → 11C(p,)12N 12C(d,p)13C → 12C(p,)13N 13C(d,p)14C → 13N(p,)14O 14N(d,p)15N → 14N(p,)15O …… BAC
K
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Direct measurement of 11C(p,)12N at DRAGON
Alternative way to the 3a process for transforming material from the pp chains to the CNO.
Play an important role in the evolution of Pop Ⅲ stars.
Indirect data have large discrepancies.
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Existing indirect results of 11C(p,)12N
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E983@DRAGON proposed by Prof. W.P. Liu
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ISOL approach(500 MeV proton) , successful producing beams such as 8,9,11Li, 21Na.
Some difficulty producing beams of volatile elements such as 11C, 13N, 15O and 19Ne in required intensities (~108/s).
Production of 11C
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Alternative approach - using 13 MeV proton beam
from TR13
ProductionChemical or physical separation
Transfer to OLIS
OLIS ionizationISAC RB
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Intensity vs. collection time
Run No.
Sample radioactivit
y (mCi)
Beam intensity(ions/s)
ECR efficiency
1 15.0 ± 1.5 (9.9 ± 0.4) ×106 (1.9 ± 0.2) %
Beam of 11C were produced successfully. Beam intensity ~6×108 ions/s when 11C radioactivity of (1 Ci) produced by the TR13 medical cyclotron.
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• Produce 11C (and other isotopes) without using the 500 MeV p+ beam is possible.
• The beam intensity can meet the needs of radiative proton capture study using DRAGON.
• The limitation is efficiency of the ion source.
Conclusions of 11C production
M. Trinczek, S. Lapi, B. Guo et al., Can. J. Phys., (in press).
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Research Team of Nuclear Astrophysics at CIAE
Bing Guo
Gang Lian
Weiping Liu
Xixiang Bai
Baoxiang Wang
Sheng Zeng
Zhihong Li
Shengquan Yan
Yongshou Chen Nengchuan Shu
Kaisu Wu
Youbao Wang
Experiment
Theoretical
Jun Su
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Thanks !