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Nov 13, 2007 Aharon Levy - Oxford seminar 1
Gluons in the proton and exclusive hard diffraction
Aharon LevyTel Aviv University and DESY
• Introduction
• soft, hard interactions
• gluons
• data on exclusive vector meson electroproduction
• sizes of gluon cloud
• sizes of photon configurations
• effective Pomeron trajectory
• comparison to theory
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Nov 13, 2007 Aharon Levy - Oxford seminar 2
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Nov 13, 2007 Aharon Levy - Oxford seminar 3
LHeC
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Nov 13, 2007 Aharon Levy - Oxford seminar 4
Deep Inelastic kinematics
Spin
[20 fb-1 /point]
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Nov 13, 2007 Aharon Levy - Oxford seminar 5
McAllister, Hofstadter Ee=188 MeV rmin=0.4 fmBloom et al. 10 GeV 0.05 fmCERN, FNAL fixed target 500 GeV 0.007 fmHERA 50 TeV 0.0007 fm
HERA Kinematics
Ee=27.5 GeVEP=920 GeVs=(k+P)2 = (320 GeV)2 0.2
( )
c fmr
Q Q GeV
e
p
* r b
Transverse distance scale:
Impact parameter:c
bt
where t is the square of the 4-momentumtransferred to the proton
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Nov 13, 2007 Aharon Levy - Oxford seminar 6
Proton momentum framePartons frozen during time of interaction. Virtual photon samples the quark distribution.
Assume that partons form incoherent beam. The parton density distributions are meant to be universal quantities.
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Nov 13, 2007 Aharon Levy - Oxford seminar 7
Proton rest-frame
e
p
* r bq
q
Photon fluctuates into , , ….. states, which interact with the proton.
r large interaction soft, r small interaction hard.
qq qqg
soft and hard – studied by W (or x~1/W2) dependence of the cross section.
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Nov 13, 2007 Aharon Levy - Oxford seminar 8
high energy behavior tot s0.08
,pp pp,p p
Donnachie and Lanshoff – universal behavior of total hadron-hadron cross section :
(0) 1 (0) 1( ) IP IRtot h h As Bs
soft
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Nov 13, 2007 Aharon Levy - Oxford seminar 9
Regge trajectories
IP - Pomeron
( ) (0) 't t
( ) 1.08 0.25IP t t
( ) 0.45IR t t
(0) 1 (0) 1( ) IP IRtot h h As Bs
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Nov 13, 2007 Aharon Levy - Oxford seminar 10
hard
The rise of F2 with decreasing x is strongly dependent on Q2.
2*
22( )tot
dF p
dxdQ
DIS:
2( )2
QF x at small x
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Nov 13, 2007 Aharon Levy - Oxford seminar 11
Below Q2 0.5 GeV2, see same energy dependence as observed in hadron-hadron interactions. Start to resolve the partons.
s0.08
soft hard
2( )2
QF x
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Nov 13, 2007 Aharon Levy - Oxford seminar 12
QCD based fits can follow the data accurately, yield parton densities. BUT:• many free parameters (18-30) (only know how parton densities evolve)
• form of parameterisation fixed by hand (not given by theory)
F2 parton densities. * ‘sees’ partons. parton density increases with decreasing x.
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Nov 13, 2007 Aharon Levy - Oxford seminar 13
From Pumplin, DIS05
There are signs that DGLAP (Q2
evolution) may be in trouble at small x (negative gluons, high 2 for fits).
Need better data to test whether our parton densities are reasonable. The structure function FL will provide an important test.
all is not well …
Can also get information on gluon density from exclusive hard processes.
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Nov 13, 2007 Aharon Levy - Oxford seminar 14
arXiv:0711.1721Date: Mon, 12 Nov 2007 07:49:56 GMT (288kb)
Title: Status of Deeply Inelastic Parton DistributionsAuthors: Johannes Bl\"umlein From EDS07
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Nov 13, 2007 Aharon Levy - Oxford seminar 15
Exclusive VM electroproduction
(V0 = DVCS)
* 0
0 , , , / ,
p V p
V J
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Nov 13, 2007 Aharon Levy - Oxford seminar 16
soft to hard transition
IP
‘soft’
WW )(
‘hard’
gg||tbe
dt
d
• Expect to increase from soft (~0.2, from ‘soft Pomeron’ value) to hard (~0.8, from xg(x,Q2)2)
• Expect b to decrease from soft (~10 GeV-2)
to hard (~4-5 GeV-2)
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Nov 13, 2007 Aharon Levy - Oxford seminar 17
ingredients
Use QED for photon wave function. Study properties of V-meson wf and the gluon density in the proton.
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Nov 13, 2007 Aharon Levy - Oxford seminar 18
Mass distributions KK
/J
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Nov 13, 2007 Aharon Levy - Oxford seminar 19
Photoproduction
W process becomes hard as scale (mass) becomes larger.
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Nov 13, 2007 Aharon Levy - Oxford seminar 20
(W) – ρ0 Fix mass – change Q2
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Nov 13, 2007 Aharon Levy - Oxford seminar 21
(W) - , J/,
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Nov 13, 2007 Aharon Levy - Oxford seminar 22
(Q2+M2) - VM
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Nov 13, 2007 Aharon Levy - Oxford seminar 23
(Q2) nMQ
22
Fit to whole Q2 range gives bad 2/df (~70)
pp 0* VM n comments
ρ 2.44±0.09 Q2>10 GeV2
2.75±0.13 ±0.07
Q2>10 GeV2
J/ 2.486±0.080±0.068
All Q2
1.54±0.09 ±0.04
Q2>3 GeV2
101Q2(GeV2)
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Nov 13, 2007 Aharon Levy - Oxford seminar 24
b(Q2) – ρ0,
pp 0*
Fit||tbe
dt
d
:
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Nov 13, 2007 Aharon Levy - Oxford seminar 25
b(Q2+M2) - VM
2 2( )r b c
‘hard’
gg
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Nov 13, 2007 Aharon Levy - Oxford seminar 26
Frankfurt - Strikman
Kornelija Passek-Kumaricki - EDS07
DVCS
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Nov 13, 2007 Aharon Levy - Oxford seminar 27
Information on L and T
Use 0 decay angular distribution to get r0400 density matrix
element 04 04 200 00(cos ) (1 ) (3 1)cosh hf r r
0400
0400
1
1L
T
rR
r
- ratio of longitudinal- to transverse-photon fluxes ( <> = 0.996)
0400
L L
L T tot
r
using SCHC
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Nov 13, 2007 Aharon Levy - Oxford seminar 28
R=L/T (Q2)
pp 0*
When r0004 close to 1, error on R large and asymmetric
advantageous to use r0004 rather than R.
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Nov 13, 2007 Aharon Levy - Oxford seminar 29
Photon configuration - sizessmall kT large
kTlarge config.
small config.
T: large size small size
strong color forces color screening
large cross section small cross section
*: *T, *L
*T – both sizes, *L – small size
Light VM: transverse size of ~ size of proton
Heavy VM: size small cross section much smaller (color transparency) but due to small size (scale given by mass of VM) ‘see’ gluons in the proton ~ (xg)2 large
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Nov 13, 2007 Aharon Levy - Oxford seminar 30
L/tot(W)
L and T same W dependence
L in small configuration
T in small and large configurations
small configuration steep W dep
large configuration slow W dep
large configuration is suppressed
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Nov 13, 2007 Aharon Levy - Oxford seminar 31
L/tot(t)
TL bb
size of *L *T
large configuration suppressed
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Nov 13, 2007 Aharon Levy - Oxford seminar 32
(W) - DVCS* p p
Final state is real T
using SCHC initial * is *T
but W dep of steep
large *T configurations suppressed
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Nov 13, 2007 Aharon Levy - Oxford seminar 33
Effective Pomeron trajectory
ρ0
photoproduction
Get effective Pomeron trajectory from d/dt(W) at fixed t
2[2 ( ) 2]( ) ( ) IP td
W F t Wdt
Regge:
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Nov 13, 2007 Aharon Levy - Oxford seminar 34
Effective Pomeron trajectory
ρ0 electroproduction
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Nov 13, 2007 Aharon Levy - Oxford seminar 35
Comparison to theory
• All theories use dipole picture
• Use QED for photon wave function
• Use models for VM wave function – usually take a Gaussian shape
• Use gluon density in the proton
• Some use saturation model, others take sum of nonperturbative + pQCD calculation, and some just start at higher Q2
• Most work in configuration space, MRT works in momentum space. Configuration space – puts emphasis on VM wave function. Momentum space – on the gluon distribution.
• W dependence – information on the gluon
• Q2 and R – properties of the wave function
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Nov 13, 2007 Aharon Levy - Oxford seminar 36
ρ0 data - Comparison to theory
• Martin-Ryskin-Teubner (MRT) – work in momentum space, use parton-hadron duality, put emphasis on gluon density determination. Phys. Rev. D 62, 014022 (2000).
• Forshaw-Sandapen-Shaw (FSS) – improved understanding of VM wf. Try Gaussian and DGKP (2-dim Gaussian with light-cone variables). Phys. Rev. D 69, 094013 (2004).
• Kowalski-Motyka-Watt (KMW) – add impact parameter dependence, Q2 evolution – DGLAP. Phys. Rev. D 74, 074016 (2006).
• Dosch-Ferreira (DF) – focusing on the dipole cross section using Wilson loops. Use soft+hard Pomeron for an effective evolution. Eur. Phys. J. C 51, 83 (2007).
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Nov 13, 2007 Aharon Levy - Oxford seminar 37
Q2
KMW – good for Q2>2GeV2 miss Q2=0
DF – miss most Q2
FSS – Gauss better than DGKP
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Nov 13, 2007 Aharon Levy - Oxford seminar 38
Q2
Data seem to prefer
MRST99 and CTEQ6.5M
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Nov 13, 2007 Aharon Levy - Oxford seminar 39
W dependence
KMW - close
FSS:
Sat-Gauss – right W-dep.
wrong norm.
MRT:
CTEQ6.5M – slightly better in W-dep.
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Nov 13, 2007 Aharon Levy - Oxford seminar 40
L/tot(Q2)
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Nov 13, 2007 Aharon Levy - Oxford seminar 41
L/tot(W)
All models have mild W dependence. None describes all kinematic regions.
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Nov 13, 2007 Aharon Levy - Oxford seminar 42
Summary and conclusions• HERA data shows transition from soft to hard interactions.• The cross section is rising with W and its logarithmic derivative
in W, , increases with Q2.• The exponential slope of the t distribution decreases with Q2 and
levels off at about b = 5 GeV-2. Transverse size of gluon density (0.6 fm) inside the charge radius of the proton (0.8 fm).
• The ratio of cross sections induced by longitudinally and transversely polarised virtual photons increases with Q2, but is independent of W and t. The large configurations of the transversely polarised photon are suppressed.
• The effective Pomeron trajectory has a larger intercept and smaller slope than those extracted from soft interactions.
• All these features are compatible with expectations of perturbative QCD.
• None of the models which have been compared to the measurements are able to reproduce all the features of the data.
• Precision measurements of exclusive vector meson electroproduction can help determine the gluon density in the proton.