michel garçon – sphn/saclay – sir2005 workshop (jefferson lab , may 2005)
DESCRIPTION
Generalized Parton Distributions: the present program at Jefferson Lab. Michel Garçon – SPhN/Saclay – SIR2005 Workshop (Jefferson Lab , May 2005). The specificities of JLab. High luminosity compensates relatively low energy - PowerPoint PPT PresentationTRANSCRIPT
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Michel Garçon – SPhN/Saclay – SIR2005 Workshop (Jefferson Lab, May 2005)
Generalized Parton Distributions:
the present program at Jefferson Lab
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High luminosity compensates relatively low energy (for exclusive measurements, same Q2 as high energy machines are achieved) Large x range (.15 - .75) above resonance region into DIS
High resolution truly exclusive measurements
Experimental equipment from high resolution to large acceptance spectrometers, polarized targets, new electromagnetic calorimeters, highly polarized electron beam (80%)
☺ All this enhanced in the planned 12 GeV upgrade
The specificities of JLab
W = 2.8
2.4
2 1.8 GeV
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ep→epγ (DVCS) BSA CLAS 4.2 GeV Published PRL
CLAS 4.8 GeV Preliminary
CLAS 5.75 GeV Preliminary
(+ σ) Hall A 5.75 GeV Fall 04
CLAS 5.75 GeV Spring 05
ep→epγ (DVCS) TSA CLAS 5.65 GeV Preliminary
e(n)→enγ (DVCS) BSA Hall A 5.75 GeV Fall 04
ed→edγ (DVCS) BSA CLAS 5.4 GeV under analysis
ep→epe+e- (DDVCS) BSA CLAS 5.75 GeV under analysis
ep→epρ σL CLAS 4.2 GeV Published PLB
CLAS 5.75 GeV under analysis
ep→epω (σL) CLAS 5.75 GeV Accepted EPJA
+ other meson production channels π, η, Φ under analyses in the three Halls.
GPD Reaction Obs. Expt Status
),,( tH From
ep → epX
Dedicated set-up
),,(~ tH ),,( tE
),,( txH
x
duEH )2(,
x
duEH )2(,
)( du
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DVCS and GPDs : Beam and target spin asymmetries
DVCS-BH interference generates abeam spin cross section difference:
and atarget spin cross section difference:
sinA
EHH
)(4
~)()(
2)( 22211 tF
MttFtF
xxtFA
B
B
q
qqq tGPDtGPDe ),,(),,(
~ 2 E),H(H,
Spin asymmetries:
TSABSA /
sin'A
EHH
221211 4222
~' F
MtFx
xxFF
xxFA B
B
B
B
B
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CLAS/DVCS at 4.2 and 4.8 GeV:ep→epγ from analysis of ep→epX spectra
Published measurement at 4.2 GeVPhys.Rev.Lett.87:182002,2001
2 2
2
1.25 GeV0.19
0.19 GeVB
Qx
t
Preliminary CLAS analysiswith 4.8 GeV data (G. Gavalian)
Preliminaryγ
π0
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CLAS: high luminosity run at 5.75 GeV
First JLab experiment with GPDs in mind
(october 2001 – january 2002)
- polarized electrons, E = 5.75 GeV
- Q2 up to 5.5 GeV2,
-Integrated luminosity: 30 fb-1
- W up to 2.8 GeV
W = 2.8
2.4
2 1.8 GeV
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0.15 < xB< 0.41.50 < Q2 < 4.5 GeV2
-t < 0.5 GeV2
PRELIMINARY
(not for circulation)
H. Avakian & L. Elouadrhiri
GPD based predictions(Vanderhaeghen)
0 are suppressed due to analysis cuts (only low t),residual contribution (π/γ ~ 5-15%) estimated from MC
CLAS/DVCS (ep → epX) at 5.75 GeV
PRELIMINARY
(not for circulation)
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CLAS/DVCS (ep → epX) at 5.75 GeV
t – dependence of BSA for photon and pion production:
PRELIMINARY
(not for circulation)
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0 asymmetry (two photons required)
Exclusive ep ep
S. Chen
A
5.65 GeV run with NH3 longitudinally polarized target, Q2 up to 4.5 GeV2
DVCS with a polarized target in CLAS
* Detect all 3 particles in the final state (e,p,γ) to eliminate contribution from N (but calorimeter is at too large angles) ,
* Apply kinematical cuts to suppress ep→epπ0 contribution.
* Remaining Φ-dependent π0 contribution (10-40%) extracted from MC.
* π0 asymmetry measured
PRELIMINARY
(not for circulation)
PRELIMINARY
(not for circulation)
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DDVCS(Double Deeply Virtual Compton Scattering)
γ*T γ*T
M. Guidal & M. Vanderhaeghen, PRL 90A. V. Belitsky & D. Müller, PRL 90
The (continuously varying)virtuality of the outgoing
photon allows to “tune” thekinematical point (x,ξ,t) at
which the GPDs are sampled (with |x | < ξ).
e- e+
e-
p p
e- ),),',((~Im tqxHT DDVCS
DDVCS-BH interference generates abeam spin asymmetry sensitive to
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DDVCS: first observation of ep → epe+e- in CLAS
* Positrons identified among large background of positive pions
* ep→epe+e- cleanly selected (mostly) through missing mass ep→epe+X
* Φ distribution of outgoing γ* and beam spin asymmetry extracted(integrated over γ* virtuality)
A problem for both experiment and theory:
* 2 electrons in the final state → antisymmetrisation was not included in calculations,
→ define domain of validity for exchange diagram.
* data analysis was performed assuming two different hypotheses
either detected electron = scattered electron
or detected electron belongs to lepton pair from γ*
Hyp. 2 seems the most valid
→ quasi-real photoproduction of vector mesons
but…
Lepton pair squared invariant mass
S. M
orro
w &
M. G
arço
n
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Deeply virtual meson production
Meson and Pomeron (or two-gluon) exchange …
… or scattering at the quark level ?
π, f2, Pρ0 (σ), f2, P
ω π, f2, P
Φ P
Flavor sensitivity of DVMP on the proton:
ω
ρ0 2u+d, 9g/4
ω 2u-d, 3g/4
Φ s, g
ρ+ u-d
γ*LωL
6
2
4
),(),,)((1)(1Q
tfdxdztxbEaHixz
zQQdt
d MSL
(Photoproduction)
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Exclusive ρ meson production: ep → epρ
CLAS (4.2 GeV)
Regge (JML)
C. H
adjid
akis
et a
l., P
LB 6
05
GPD formalism (beyond leading order) describes approximately data
for xB<0.4, Q2 >1.5 GeV2
GPD (MG-MVdh)
CLAS (5.75 GeV)
Analysis
in progress
Two-pion invariant mass spectra
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L. Morand et al., hep-ex/0504057, to be published in EPJA
Analysis of ω polarization from ep → epπ+π-X configurations (for the first time for this channel above Q2 ~ 1 GeV2)
• Cross sections larger than anticipated at high t (see J.-M. Laget, PRD 70, 054023)• SCHC does not seem to hold → not possible to extract σL
handbag diagram estimated to contribute only about 1/5 of measured cross sections→ ω most challenging/difficult channel to access GPD • Evidence for unnatural parity exchange 0 exchange very probable even at high Q2
Deeply virtual ω production at 5.75 GeVAnalysis of cross sections from ep → epπ+X configurations
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JLab/Hall A JLab/CLASCalorimetrer and supraconducting magnet
within CLAS torus
ee’p
γ
Dedicated, high statistics, DVCS experiments
→ Detection of 3 particles e, p and γ in final state→ Firmly establish scaling laws (up to Q2 ~ 5 GeV2), if observed, or deviations thereof understood, first significant measurement of GPDs.
→ Large kinematical coverage in xB and t leads to femto-tomography of the nucleon→ Opens the way for an ambitious program
with JLab@12GeV (CLAS12 and other)
JLab dedicated DVCS experiments in 2004 - 2005
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Experiment completed (Sept-Nov. 2004)
PbF2 electromagnetic calorimeterFast-digitizing electronics→ analysis of double pulses (pile-up)
First
double
and
triple
coincidences !
(luminosity = 1037 cm-2s-1)
HMS•calo
HMS•calo•scint.
Scintillator array for proton detection
(P. B
ertin
, C.E
. Hyd
e-W
right
, R. R
anso
me,
F. S
abat
ié, e
t al.
CEB
AF/
E-00
-110
)
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EHH
)(4
~)()(
2)( 22211 tF
MttFtF
xxtFA
B
B
DVCS on the neutron
DVCS-BH interference generatesa beam spin cross section difference
Main contribution for the proton Main contribution
for the neutron
(P. B
ertin
, C.E
. Hyd
e-W
right
, F. S
abat
ié, E
. Vou
tier e
t al.
CEB
AF/
E-03
-106
)
→ (within a model) Sensitivity to quark angular momentum J
sinA
Veto detector added to the p-DVCS set-up
Experiment completed (Nov.-Dec. 2004)
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Supraconducting solenoid
Inner calorimeter (PbWO4)
CLAS/DVCS
424 crystals, 16 mm long, pointing geometry, ~ 1.2 degree/crystal,
APD readout
Photon detection in IC and EC (view from target)
Calibration from π0→γγ
σ = 7.5 MeV
Mγγ (GeV)
η
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Dependence of asymmetryand total cross-section asa function of xB, t, Q2 , bins
Projected results (sample)
E01-113 V. Burkert, L. Edouardrihi, M. Garçon, S. Stepanyan et al. Run March-May 2005
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Full exclusivity from 3-particle detection
Hall A
CLAS (from preliminary analysis of 2-hour run)
All (eγp) events(eγp) events after kinematical cuts
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Conclusions and outlook
Jefferson Lab is playing a leading role in providing
the experimental basis of the GPD concept.
Once proper scaling laws are verified in DVCS (and possibly DVMP),
first significant constraints on GPD models from dedicated experiments.
A complete mapping and measurement of GPDs (from the quark sea to the valence region)
will probably have to await the 12 GeV upgrade.