lbl 5/21/2007j.w. holt1 medium-modified nn interactions jeremy w. holt* nuclear theory group state...
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LBL 5/21/2007 J.W. Holt 1
Medium-modified NN interactions
Jeremy W. Holt*
Nuclear Theory Group
State University of New York
* with G.E. Brown, J.D. Holt, and T.T.S. Kuo
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LBL 5/21/2007 J.W. Holt 2
Medium-modified
Microscopic Foundation for density-dependent interactions
Can such interactions provide a good description of nuclear systems?
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LBL 5/21/2007 J.W. Holt 3
Chiral Effective Theories
(e.g. Hidden Local Symmetry)
Double Decimation
Match T and dependence with QCD Sum Rule correlation functions
Traditional OBE potentials (e.g. Bonn, Nijmegen, etc.)
EFT with intrinsic T and dependence
QCDChiral decimation
Fermi liquid decimation
Describe in a unified wayG. Brown and M. Rho,
Phys. Rept. 396 (2004)
(1) Finite nuclei (2) Nuclear matter (3) Hot/dense matter
Low-momentum interaction
Introduce medium modifications “by hand”
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LBL 5/21/2007 J.W. Holt 4
CD-Bonn potential Nijmegen potentials
0(135), ±(140) 0(135), ±(140), (549), '(958)
1(500), 2(900) (760), a00(983), a0
±(983), f0(976)
0(770), ±(770), (782) 0(767), ±(768), (782), (1020)
In-medium modifications (T = 0, 0)
Change in mass at = 0 Theory Experiment Us
, ~ 10 – 15% decrease Yes Yes 15%
~ small increase Yes Yes 0%
~ 10% decrease Yes No 7%
Assume linear scaling:0
1*
Cm
m
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LBL 5/21/2007 J.W. Holt 5
),'();;,'();,'( 22 kkkkkTkkkT klow
or for 0 k'kkVk klow
0 2222
kq
kTqqVkdqqPkVkkTk
klowklow
klowklow
RG and EFT
Traditional problem: Strong short distance repulsion
(a) G-matrix
Ge
QVVG
(b) Vlow-k
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LBL 5/21/2007 J.W. Holt 6
Bare NN Potentials
Universal interaction for = 2.1 fm-1
k = 2.1 fm-1 Elab = 350 MeV
Integrate out the experimentally unconstrained part of the NN interaction
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LBL 5/21/2007 J.W. Holt 7
Nuclear matter
Easier than finite nuclei (only one density)
Saturation (E/A, kF, K )
Hartree-Fock (preliminary)
Ring diagram expansion (preliminary)
Fermi liquid theory [JWH et al., NPA 785 (2007) 322.]
Outline of Results
Finite nuclei
Diminishing tensor force
Beta decay of 14C
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LBL 5/21/2007 J.W. Holt 8
Saturation with low momentum interactions
Fixed cutoff in Hartree-Fock approximation(no saturation)
S. Bogner et al., NPA 763 (2005) 59.
Add leading order chiral 3N force
Empirical saturation energy and density
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LBL 5/21/2007 J.W. Holt 9
Tensor force with dropping masses
rmT e
rmrmrmSm
frV
3
1
)(
1
)(
1
4)(
231221
2
rmT e
rmrmrmSm
frV
3
1
)(
1
)(
1
4)(
231221
2
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LBL 5/21/2007 J.W. Holt 10
Novel saturation mechanism
Hartree-Fock+
Preliminary!
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LBL 5/21/2007 J.W. Holt 11
Ring diagrams (pp)
3200 )(
3
1)(
2
1tr
2
1FVFVFVed
iE ipp
VGed
i
d
iE ppipp ),(tr
22
1 01
00
+ + +
Introduce model space m ~ 3.0 fm –1
Choose vlowk = m
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LBL 5/21/2007 J.W. Holt 12
Preliminary!
[fm–1]
[MeV
]
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LBL 5/21/2007 J.W. Holt 13
Expand:
kkk
k kkkkk,
)0( )()(),(2
1)( nnnE f
quasiparticle interaction
Quasiparticles defined only near Fermi surface: k kF 2)(
1~
Fkk
Strongly interacting, normal Fermi systems at T = 0
Weakly interacting quasiparticles
Fermi Liquid Theory
kkkkkkkk
kk
Vnn
E
)()(),(
f
Hartree-Fock 21
)()(2
1)( 21122121
kkk
knknkkkkVkkknkTkE
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LBL 5/21/2007 J.W. Holt 14
Spin & Isospin Dependence:
Dimensionless parameters: lF
l fkm
F2
2
*
lll
lll
Pgg
Pff
)(cos),(
)(cos),(
k
k
kk
kk
Correspondence between FLP and observables
13
11 F
m
m
* 0
22
13
Fm
kF *
K 0
22
16
Fm
kF *
3/16
1
1
11
F
FFg p
l
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LBL 5/21/2007 J.W. Holt 15
l l
l
l
l
lG
G
lF
F0
)12/(13
)12/(1
Pauli Principle Sum Rules:
l l
l
l
l
l
l
lG
G
lF
F
lF
F0
)12/(1)12/(1)12/(13
2
),( kkF ),( kkFd ),( kkFi +
Babu-Brown induced interaction
S. Babu and G. Brown, Ann. Phys. 78 (1973) 1
)0,()0,(1
9
)0,(1
3
)0,(1
3
)0,(1 0
20
0
20
0
20
0
20 qU
qUG
G
qUG
G
qUF
F
qUF
FFi
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LBL 5/21/2007 J.W. Holt 16
Full Driving Induced
l F G F’ G’ F G F’ G’ F G F’ G’
0 -0.48 0.03 0.22 0.78 -1.28 0.14 0.37 0.64 0.80 -0.12 -0.15 0.14
1 -0.34 0.26 0.27 0.17 -0.53 0.26 0.28 0.13 0.20 0.01 0.00 0.05
Largest effect is to cut down the strong attraction in F channel
Rapid convergence of iteration scheme
Full Calculation:Driving Terms (Vlow-k CD-Bonn)Fd0= -1.20 Fd1= -0.50 Gd0= 0.14 Gd1= 0.24 F'd0= 0.35 F'd1= 0.26
G'd0= 0.60 G'd1= 0.12 Unstable (negative K )
Sum Rules: 2.51 S 6.32 S
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LBL 5/21/2007 J.W. Holt 17
Nijmegen I Nijmegen II CD-Bonn Expt.
m*/m 0.887 0.930 0.888
K [MeV] 136 102 136 200-300
[MeV] 18.1 20.5 17.6 25-35
gl[N] 0.682 0.452 0.685 0.20-0.26
Sl 0.20 0.16 0.27
S2 -0.04 -0.02 -0.04
How to improve?
1. Explicit three-body forces
2. In-medium modifications to NN interaction
Medium modifications equivalent to a type of 3N force
Extend Walecka mean field theory to constituent quarks
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LBL 5/21/2007 J.W. Holt 18
VNI VNII VN93 VCDB Exp.
m*/m 0.721 0.763 0.696 0.682
K [MeV] 218 142 190 495 200-300
[MeV] 20.4 25.5 23.7 19.2 25-35
gl[N] 0.246 0.181 0.283 0.267 0.20-0.26
Full many-body calculations )(
**
ng
g
m
m
A
A
N
N gA = 1.25
gA* = 1.00
242
2
NN
NN
g
g
9
2
2
NN
NN
g
g
quark model
Decreasing g2NN by 20% cuts
K by 50% but changes other observables by ~ 5%
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LBL 5/21/2007 J.W. Holt 19
Finite nuclei
Decreasing tensor force necessary!
1. Decay of 14C
2. 0– T=1 and 0– T=0 splitting in 16O
3. E2 and M1 moments of 6Li
Traditional many-body effects or novel scaling mechanism?
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LBL 5/21/2007 J.W. Holt 20
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LBL 5/21/2007 J.W. Holt 21
14C
14N
0+
1+
03
01 PySx
13
11
13 DPS
01,00,12
TJTJ
2 holes in 0p-shell –
Nijmegen I
Preliminary
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LBL 5/21/2007 J.W. Holt 22
• NN interactions with medium-modified mesons
• Saturation of nuclear matter and Fermi liquid parameters improved with dropping masses
Summary
• Full analysis of ring diagrams
• Look for nuclear observables where tensor force plays dominant role
• Understand the connection between medium modifications and three-body forces
Outlook