lou jian-ling, chen jie , ye yan-lin peking university, china november 8th, 2015 jcnp2015
TRANSCRIPT
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Spectroscopic Study of the Intruder States in 12Be via (d , p)
Transfer ReactionLou Jian-Ling, Chen Jie , Ye Yan-Lin
Peking University, ChinaNovember 8th, 2015
JCNP2015
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ContentMotivationExperimental setupData analysisSummary and disscussion
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The halo nucleus 11BeNeutron loosely bound Sn=0.504 MeVLarger radius rms= 2.91 fm Parity inversion : intruder state10Be core + 1 valance n
Intruder dominate
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PRC 85 (2012) 051303R
⑳
intruder state in 1 1Be g . s , larger than 90%
10Be Core excited to 2+
0 s1/2
0 p3/20 p1/2
0 d5/2
0 d3/21 s1/2
⑧1 s1/2 0
p1/2
0 d5/2
0+ × 1s1/2 2+ × 0d5/2
11Begs(1/2+)
2+
0 p1/2
PRL 108, 192701 (2012),10Be(d,p) S~0.71(5)
inversion
PLB 461, 22-27 (1999) 11Be(p,d) S~16%
PRL 84, 35(2000) 11Be 1n removalReaction , momentum distribution
S~22%
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[6]F. C. Barker, J. Phys. G 2, L45 (1976).
Intruder state
Normal state
12Be = 11Be + n
or
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12Be•Isomeric state : 02
+ 331(12) ns Two decay modes: E2 decay: 130 keV and 2.11 MeV gamma-rays 17(2)%E0 decay: internal conversion: negligible e+e- pair creation 511keV gamma 83(2)%
Physics Letters B 560 (2003) 31–36;
Physics Letters B 654 (2007) 87-91.
0 s1/20 p3/2
0 d5/2
0 d3/21 s1/2
0 p1/2
⑳
⑧1 s1/2
Normal Intruder state
12Begs(0+)
0 d5/20 p1/2
(0s)4(0p)8 0ћω (0s)4(0p)6(1s0d)2 2ћω
isomer
or ??
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01+ G.S 02
+ Isomer G.S Isomer reference
Inutruder normal intruder normal
s d p s d p
F.C.Barke 33 34 32 56 2 42 Dominant
dominant
J.Phys.G 36,038001,2009; J.Phys.G 2, L45,1976
H.T.Fortune and R.Sherr
53 15 32 25 7 68 dominant Not Phys.Rev.C 74,024301,2006; J.Phys.G 36, 038002,2009; Phys.Rev.C83,044313,2011.
C.Romero-RedondoThree –body model
? 10-13
13-19 15-23
6-8
? dominant Not Phys.Rev.C 77,054313,2008.
G.Blanchon pp-RPA 25 18.5 58 74 0 19 Not dominant
Phys.Rev.C 82,034313,2010.
M.Dufour NCSM 16 59 no Not No data Nucl.Phys.A 836,242,2010.
Knock -out reaction 68 32 no dominant No data Phys.Rev.Lett 85,266,2000; Phys.Rev.Lett 96,032502,2006.
0.56 0.48 0.44
Charge exchange reaction
no no 25 no no 60 dominant Not Phys.Rev.lett 108,122501,2012.
Transfer reaction 0.28 no no 0.73 no no uncertainty dominant Phys.lett.B 682,391,2010.
~0.20 no no 0.32-0.95
no no uncertainty uncertainty Phys.Rev.C 88,044619,2013
Ground state : transfer reaction could not give the unambiguous result, are no conflict with others Isomeric state : transfer reaction contradict with Charge-exchange
No data: no data or no calculationNot: Intruder state is not dominantDominant: Intruder state is dominantUncertainty: no d-wave, could not make sure
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Knock-out experiment(2ћω)78 MeV/u 12Be+9Be(s wave)
don’t distinguish (1s1/2)2 and (0p1/2)2 configurations ------gamma rays
not sensitive to the (0d5/2)2 configuration--------10Be+n fragments
39 MeV/u 12Be+12C(s p d wave) 4 NaI detectors: detect the first excited state of 11Be at 320keV(0p1/2)
Demon: detect n, n+10Be reconstruct the excited state of 11Be at 1.78 MeV(0d5/2)
Phys.Rev.Lett 85,266,2000.
Phys.Rev.Lett 96,032502,2006.
0 1 + (gs) : 68% intruder s tate , 32% normal s tate
quest ioned by the mixture of 0 2+ (331ns) in the
secondary beam 1 2 Be.
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12B(1+)(7Li, 7Be)12Be( 2ћω)Gamow-Teller transition
Selected rules: Δ L=0, Δ S=1 , Select p-wave ( normal ) . Clearly distinguish the first two 0+ states of 12Be. 01+ 25 ( 5)% 02+ 60(5)% --intruder states are dominant for
ground state(01+), but not for isomeric state( 02+)
11Be(d,p)12Be reaction(0ћω)Two annular DSSDSelect s-wave ( abnormal )Identify the excited states of 12Be
01+ 0.28 ,
02+ 0.73 , intruder state dominate
Phys.Rev.Lett 108,122501,2012.
Phys.Lett.B 682,391,2010.
Phys Rev C 88,044619,2013
Discriminate isomeric states from ground state
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1. 01+ : normalization,
unsure deuterium content
2. 02+ : Mix with 2+ state.
separate them incorrectly
Normalization factor for beam.
Phys.Rev.C 85,051303(R),2012.
Questioned by H.T.Fortune and R.Sherr.
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Incident energy is about 2.8 MeV/nucleonTarget thickness: 1.0 mg/cm2
No 0-degree detectors due to higher beam intensityThick target and Gamma detectors to discriminate the excited states of 12Be.
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(1) For 01+: no coincidence with 12Be Larger background
(2)For 02+ Larger C.M angles
(3) No elastic scattering dataFor 11Be+d and 12Be+p
01+ , SF = 0.15~0.25 ;
02+ , SF = 0.32-0.98.
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G.S SF = 0.15 ~ 0.25Isomeric : SF = 0.32 ~ 0.95 .
OPs of entrance channel (11Be+d) and exit channel (12Be+p) affect SF extraction largly.
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Goal of the proposed experimentMain goal:
Investigate the intruder s-wave strength in the ground state and low-lying excited state of 12Be via the d(11Be,p) transfer reaction at 20-30 MeV/u.
20-30 MeV/u : to get the highest beam intensity
1. SF is independent of the incident energy in large energy range
2. reduce the effect of complicated reaction mechanism
3. beam production rate times reaction cross sections
4. 55MeV/nucleon 12Be+p elastic scattering data exist
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The New ideas Decrease the background
Coincident measurement of 10-12Be and light-charged particles
Measure the elastic scattering Channel at the same experiment
remove the effect of proton in CD2 target
Compare the elastic scattering data of 11Be+p to 11Be+d to get the proton content in CD2 target.
New technique to separate 02+, measure Smaller angles data
implantation-decay-detect gamma( stopping and decay)
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Kinematics
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Experimental Setup
C, CD2, CH2, Empty target were used.
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Beam :
Primary beam: 13C Intensity: 800 enAEnergy: 57.7 MeV/u Secondary beam : 11Be Intensity at F3: 1.5*10^4pps On zero Tele: 2.0*10^4ppsPurity: 95% Energy: 27 MeV/nucleonContamination: mainly 9Li Beam time: 10 daysEnergy dispersion: 2%
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Beam
8Li
11Be, about 95%
9Li
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Elastic scattering Data of 11Be+p and 11Be + d
Extract Optical potential for the Entrance channel of transfer reaction
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11Be elastic and inelastic scattering on proton
Cut 11Be Elastic scattering
Cut 10Be Break up
PID in Tele0
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ADWA method :Provide the OPOf entrance channel
Systematic is good.Require normalizationFactor
Prelim
inary
Provide by D.Y.Pang and J.Chen[1] 38.3 MeV/nucleon PLB 2008, 658: 198-202[2] 49.3 MeV/nucleon PLB 1997, 401: 9-14[3] 63.7 Mev/nucleon PLB 2004,596: 54-60
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Provide by A.M.Moro
DCE: dynamic core excitation
CDCC: Continuum discreted coupled channel
XCDCC: Extended CDCC, include core excitation
Core excitation is important
Prelim
inary
with core
excitation
Without core
excitation
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11Be elastic and inelastic scattering on deuteronPID on the zero degree telescope energy spectrum for 11Be
cut 10Be on Tele0
cut 11Be on Tele011Be
10Be
Energy/MeVEnergy in SSD/MeV
Energy in
DSSD / a
rtificial u
nit
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Provide by D.Y.Pang and J.Chen
Global JLM potential can reproduce the Angular distribution of 11Be+d
DWBA: provide 11Be+d OP
Provide by A.M.MoroGood d + 10Be OP, Need more discussion
Prelim
inary
[1] PRC 83, 064619 (2011)
[2] JPG 39 (2012) 095101
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H in CD2 target (9.5%)
dh
Angle of 11Be(degree)
An
gle
of
deu
tero
n(d
eg
ree)
Angle of Deuteron(degree)
En
erg
y of
deu
tero
n(M
eV
)E
nerg
y of
deu
tero
n(M
eV
)
Angle of Deuteron(degree)Q-Value(MeV)
Cou
nts
d
dH
H
Prelim
inary
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OP of the exit channel
We need 51 MeV/nucleon data
Physics Letters B 343 (1995) 53-58;
Curve 1: Optical model fittingCurve 2: 12C+p OP
0 10 20 30 40 500
20
40
60
80
100 Experimental data at 55 MeV/nucleon
CH89 V = 0.70
Curve 1
d/d
R
c.m(degree)
Using CH89 systematic OP to refit the Angular distributions to get the exit channel OP
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d(11Be,p)12Be Transfer reaction
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Proton coincident with 12Be
Angle(degree)
En
erg
y(M
eV
)
Mean=0.22MeVSigma=0.5MeV
Mean=-2.14MeVSigma=0.65Me
Q-value
Cou
nts
/500 k
eV
12Be
G.S
Isomeric mixed with 2+ and 1-
Prelim
inary
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Isomeric state(E0 decay was used)
T1/2 = 331 ns
E2: 17%130 keV and 2100 keV
E0: 83%511 keV
S. Shimoura et al., Physics Letters B 560 (2003) 31–36;
S. Shimoura et al., Physics Letters B 654 (2007) 87-91.
e+e- pair creation
Energy(keV)
Cou
nts
/ 30
keV
12Be + proton + gamma
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Differential cross sections and SF
27A MeV(DWBA)
5A MeV(DWBA)[1]
2.8 A MeV(DWBA)[2]
G.S 0.14+0.04-0.04 0.25+0.03
-0.07 0.15~0.25
Isomer 0.24+0.08-0.08 0.73+0.27
-0.400.32~0.95
Fresco input file is provided by D.Y.Pang Error : 68% confidence G.S SF is in consistent with previous
resultsIsomeric state ‘s SF is inconsistent
Prelim
inary
[1] ]Phys.lett.B 682,391,2010.
[2] Phys.Rev.C 88,044619,2013
Ground state
Isomeric state
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01+ G.S 02
+ Isomer G.S Isomer reference
Inutruder normal intruder normal
s d p s d p
F.C.Barke 33 34 32 56 2 42 Dominant
dominant
J.Phys.G 36,038001,2009; J.Phys.G 2, L45,1976
H.T.Fortune and R.Sherr
53 15 32 25 7 68 dominant Not Phys.Rev.C 74,024301,2006; J.Phys.G 36, 038002,2009; Phys.Rev.C83,044313,2011.
C.Romero-RedondoThree –body model
? 10-13
13-19 15-23
6-8
? dominant Not Phys.Rev.C 77,054313,2008.
G.Blanchon pp-RPA 25 18.5 58 74 0 19 Not dominant
Phys.Rev.C 82,034313,2010.
M.Dufour NCSM 16 59 no Not No data Nucl.Phys.A 836,242,2010.
Knock -out reaction 68 32 no dominant No data Phys.Rev.Lett 85,266,2000; Phys.Rev.Lett 96,032502,2006.
0.56 0.48 0.44
Charge exchange reaction
no no 25 no no 60 dominant Not Phys.Rev.lett 108,122501,2012.
Transfer reaction 0.28 no no 0.73 no no uncertainty dominant Phys.lett.B 682,391,2010.
0.15~0.25
no no 0.32-0.95
no no uncertainty uncertainty Phys.Rev.C 88,044619,2013
Our result 0.14 no no 0.24 no no D-wave? D-wave?
(1)G.S: only get s-wave SF, could not get d-wave and p-wave content. Consistent with other experimental results within error bar
(2)Isomeric state: very small s-wave SF from experimentNeed more theoretical calculations to see Intruder configuration component
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SummaryOP for 11Be+d are extracted from the same experiment Global OP including 11Be density can reproduce angular distribution
Core excitation of 11Be is important
the effect of H percent in CD2 target are removed
New experimental technical to detect isomeric state implant----stop-----decay
get the angular distributions in smaller C.M system
DWBA method is used to extract the s-wave SF G.S : SF = 0.14+0.04
-0.04, not in conflict with other experimental results
Isomeric state: SF = 0.24+0.08-0.08, Consistent with other experimental result
ADWA calculations for these three sets dataMore theoretical calculations to explain our results
Intruder state
Normal stateor??
Prelim
inary
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Collaborators
Osaka University, Japan Aoi, Ong Hooi Jin, Eiji Ideguchi, Tetsuya, Mana, Suzuki, Tran Trong
RIKEN, JapanJenny lee, Wu Jin, Liu Hongna, Wen Chao
Beihang University, ChinaPang Danyang
Universidad de Sevilla, SpainA.M.Moro
Chen Jie, Ye Yanlin, Li Zhihuan, Li Qite, Ge Yucheng, Jiang Dongxing, Hua Hui, Yang Zaihong, Sun Yelei, Tian zheng yang,Li Jing, Jiang Wei, Zang Hongliang
Peking University, China
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Thank you for attention!
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Test Results for PKU silicon detector
5.486 MeV
5.443 MeV
Energy spectrum of 241Am detected by300 um DSSD
Energy resolution is about 0.5—0.6%(FWHM).
Energy spectrum of 241Am detected by400 um Annular DSSD
Energy resolution is about 0.7—0.8%(FWHM).
缺一张环形硅的测试图。
Dead layer is about 0.6 um silicon layer equivalence . Provide by J.Chen
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Time resolution of NaI(Tl) detector
Time resolution of NaI(Tl) detector is about 1.7ns(FWHM).
The time signal will be recorded in the experiment, which will be used to identifythe delayed gamma events.
60Co
NaI
Plastic
CFD
N568B
OUT
FOUT
ADC
delay
and
trigger
CFD
TDCstart
stoptrigger
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Give the uniform SF at different incident energies.
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The decay from Ex = 2.68 MeV to 02+ , which can
not be distinguished from the direct population 02+ ,
can be ignored.
The gamma decay probability is proportional to Er3, only 0.4% 1- state will decay to 02
+ .
99.6%
0.4%
eq. 3C-16 of the Bohr Mottelson textbook.Provided by Pro.Aoi-san
Therefore, we can reach our preliminary physical goal with the thick target.
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E(MeV)
TO
F (
ns)
From silicon detector
From Target CD2
TDC: Common-stop modeProton: Most are from 0-degree silicon detector
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11Be10Be
12Be
4He
8Li
PID with proton-time cut
11Be10Be 12Be
4He
DS
SD
En
erg
yD
SS
D
En
erg
y
SSD1 Energy
SSD1 Energy
PID without proton-time cut
DS
SD
En
erg
y
SSD1 Energy
PID with !(time cut)
SSD1 Energy
DS
SD
En
erg
y
PID with time cut-Ctarget
PID in 0-degree telescope
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Carbon background
With Carbon background
Energy/MeV
ΔE
Energy/MeV
ΔE
Without Carbon background
Prelim
inary
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T (ns)
T1/2 = 350(50) ns
Cou
nts
/100n
s