introduction the hypercentral constituent quark model
DESCRIPTION
Electromagnetic form factors in the relativized Hypercentral CQM M. De Sanctis, M.M.Giannini, E. Santopinto, A. Vassallo. Introduction The hypercentral Constituent Quark Model The elastic nucleon form factors (relativistic effects) Conclusion. N 05 Frascati, 13 october 2005. - PowerPoint PPT PresentationTRANSCRIPT
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Electromagnetic form factors in the relativized Hypercentral CQM
M. De Sanctis, M.M.Giannini, E. Santopinto, A. Vassallo
Introduction
The hypercentral Constituent Quark Model
The elastic nucleon form factors (relativistic effects)
Conclusion
N05 Frascati, 13 october 2005
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New Jlab data on nucleon f.f.
Give rise to problems:
• compatibility with old (Rosenbluth plot) data
• why the ratio GE/GM decreases?
• is there any zero in the f.f. ?
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VMD models (fits)
FF = Fintr * VMD propagators
Mesons Fintr
JIL dipole
monopole
G K QCD-interpolation
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1
1.2
0.00 2.00 4.00 6.00 8.00 10.00 12.00 14.00 16.00
Gari-Kruempelmann
Iachello
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Skyrme Model
Holzwarth 1996,2002
ff given by soliton + VMD
dip at Q2 3 GeV2
Boosting of the solitondip at Q2 10 GeV2
Skyrmion (nucleon) mass 1648 MeV
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The Hypercentral Constituent Quark Model
M. Ferraris et al., Phys. Lett. B364, 231 (1995)
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PDG 4* & 3*
0.8
1
1.2
1.4
1.6
1.8
2
P11
P11'
P33
P33'
P11''
P31
F15P13
P33''F37
M
(GeV)
π=1π=1 π=−1
35F
13D11S
31S11S '15D33 13D D '
(70,1 -)
(56,0+)
(56,0+)'
(56,2+)(70,0+)
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Jacobi coordinates
SPACE WAVE FUNCTION
1 2
3
= r - r1 2
√ 2
=r 2 rr1 + 2 - 3
√ 6
Hyperspherical coordinates
( (x
2 2+x = (size)
arc tg
(shape)
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Quark-antiquark lattice potential G.S. Bali Phys. Rep. 343, 1 (2001)
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3-quark lattice potential G.S. Bali Phys. Rep. 343, 1 (2001)
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Electromagnetic properties
• Photocouplings M. Aiello et al., PL B387, 215 (1996)
• Helicity amplitudes (transition f.f.) M. Aiello et al., J. of Phys. G24, 753 (1998)
• Elastic form factors of the nucleon
M. De Sanctis et al., EPJ A1, 187 (1998)
• Structure functionsto be published
Fixed parameters predictions
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Dynamical model (Mainz group)
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please note
• the calculated proton radius is about 0.5 fm
(value previously obtained by fitting the helicity amplitudes)
• not good for elastic form factors
• there is lack of strength at low Q2 (outer region) in the e.m. transitions
• emerging picture: quark core (0.5 fm) plus (meson or sea-quark) cloud
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ELASTIC FORM FACTORS
1. - Relativistic corrections to the elastic form factors
2. - Results with the semirelativistic CQM
3. - Quark form factors
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1.- Relativistic corrections to form factors
• Breit frame• Lorentz boosts applied to the initial and final state• Expansion of current matrix elements up to first
order in quark momentum• Results
Arel (Q2) = F An.rel(Q2eff)
F = kin factor Q2eff = Q2 (MN/EN)2
De Sanctis et al. EPJ 1998
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calculated
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• 2.- Results with the semirelativistic CQM M. De Sanctis, M. G., E. Santopinto, A. Vassallo,
nucl-th/0506033
• Relativistic kinetic energy
• Boosts to initial and final states
• Expansion of current to any order
• Conserved current
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and not much different from the NR case
V(x) = - /x + x
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Calculated values!
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Q2 F2p/F1
p
Q F2p/F1
p
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3.- Quark form factors M. De Sanctis, M. G., E. Santopinto, A. Vassallo,
nucl-th/0506033
• Quark form factors are added in the current
ff = Fintr * quark form factors
semirelativistic hCQM input (calculated)
• Monopole + dipole form for qff
• Fit of:
– GEp/GM
p ratio (polarization data)
– GMp; GE
n ;GMn
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Q2 F2p/F1
p
Q F2p/F1
p
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Conclusion
• The hCQM provides a consistent framework for the description of all the 4 nucleon electromagnetic form factors
• Relativity is crucial in explaining the decrease of the ratio GE/GM
• Quark form factors are necessary in order to get a good reproduction of the Q2 behaviour (meson cloud is missing)