higher twist in pvdis workshop conclusions
DESCRIPTION
Higher Twist in PVDIS Workshop Conclusions. Conclusion. Complications due to higher twist can be handled with the proposed data set, so the proposed SM test is valid. We will obtain unique data on 4-quark higher twist operators. This physics should be a bullet in the abstract ov the proposal. - PowerPoint PPT PresentationTRANSCRIPT
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June 6, 2009 Higher twist summary 1
Higher Twist in PVDIS Workshop Conclusions
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June 6, 2009 Higher twist summary 2
Conclusion
• Complications due to higher twist can be handled with the proposed data set, so the proposed SM test is valid.
• We will obtain unique data on 4-quark higher twist operators. This physics should be a bullet in the abstract ov the proposal.
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June 6, 2009 Higher twist summary 3
Deep Inelastic Scattering
iii fff
For an isoscalar target like 2H, structure functions largely cancel in the ratio at high x
b(x)
3
10(2C2u C2d )
uv dvu d
a(x) =C1i Qi fi
+(x)i
Qi2 fi
+(x)i
e-
N X
e-
Z* *
y 1 E /E b(x)C2i Qi fi
(x)i
Qi2 fi
(x)i
x xBjorken
a(x)3
10(2C1u C1d ) 1
2s
u d
6.0
APV GFQ2
2a(x)Y (y) b(x)
0
1
at high x
a(x) and b(x) contain quark distribution
functions fi(x)
C2q inaccessible in elastic scatteringSuppressed by a
factor of 7
Hadronic physics in a(x) mustbe controlled to high precision.We can be sloppier with b(x),since it is small.
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June 6, 2009 Higher twist summary 4
Phenomenology
21
2
)2
1(2
2 FE
xyMy
yxyF
dxdy
d
EM
}])2
1(2
2{[22
21
2ZZ
A
V
Z
FE
xyMy
yxyFg
G
dxdy
d
])2([22
3
2Z
V
A
Z
FyxgG
dxdy
d
121 )1(
F
FRRFF L
T
L
EM
AZ
VZPV
BA
EM
VZxa
)(
EM
AZxbyf
)()(
There are 5relevant structure
functions
12 2/ FxFFL
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June 6, 2009 Higher twist summary 5
Physics of the Dominant Vector- Hadronic Piece: a(x)
xdeDVxVDlVV xiq 4|)0()(|
4
4
|)0()(|
|)0()()0()(|
deDjxjDl
xdeDjxJJxjDlA
xiq
xiq
dduuSdduuV
SSVV
SSCCVVCCA
dudu
31
)(31
)( 1111
xdeddxuxuDlSVSVSSVV xiq 4)0()0()()(|))((
SSVV
SSVV
Bjorken, PRD 18, 3239 (78)
Wolfenstein,NPB146, 477 (78)
Zero in QPM
Pure 4-quark HT operatorNo Quark-gluon HT
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June 6, 2009 Higher twist summary 6
4-Quark operators
• APV presents a unique laboratory where 4-quark operators can be isolated form quark-gluon operators.
• If they are large enough for us to observe, they will be very interesting.
• 4-quark matrix elements are easy to compute on the lattice (No disconnected graphs).
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June 6, 2009 Higher twist summary 7
Quark-Quark and Quark-Gluon
Parton Modelor
leading twist
Di-quarks
Quark-gluondiagram
What is a truequark-gluonoperator?
u d
Same Flavor
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June 6, 2009 Higher twist summary 8
NLO Diagrams
Diagrams (a)-(c) cancel in APV
DGLAP Evolution
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June 6, 2009 Higher twist summary 9
Relate HT to Nucleon
• Need anomalous dimensions to evolve HT observations at Q2~10 to low Q2 of models, etc.
• These calculations should be done is a year ( or so).
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June 6, 2009 Higher twist summary 10
Heavy Quark Physics Community
• HT is not viewed as important to problems in B meson decays.
• HT is called power corrections by this community.
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June 6, 2009 Higher twist summary 11
R for γ vs Z in Neutrino Scattering
From Kulaginand Petti,PRD 76, 094023 (07)
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June 6, 2009 Higher twist summary 12
New Insight
• In neutrino scattering, there is an axial-axial piece which is nontrivial.
• For FLγZ, everything is vector. It is
much simpler.
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June 6, 2009 Higher twist summary 13
Approximations
• QPM: Cross sections given by PDF’s• DGLAP QPM: Evolve PDF’s• Higher Twist
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June 6, 2009 Higher twist summary 14
The RγZ Problem• FL is zero in the QPM but nonzero in
DGLAP QPM.• Source of FL is:
– Gluons– Gluon radiation form quarks
• Both are isoscalar for deuterium, so FL cancels in APV for dueterium.
• Corrections for H can be computed in DGLAP.
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June 6, 2009 Higher twist summary 15
Higher Twist Coefficients in parity
conserving (Di) and nonconserving (Ci) Scattering
)/)(1(),(),( 222
22 QxDQxFQxF DGLAP
APV (x,Q2)APV (x)(1C(x) /Q2)
(Does not Evolve)
Evolves accordingTo DGLAP equations
Higher Twist iswhat is left over
Higher Twist is anyQ2-dependent deviationFrom the SM prediction
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June 6, 2009 Higher twist summary 16
Going from LO to NNNLO Greatly Reduces Higher Twist
Coefficients
x D(x) D(x) Q2min D/Q2
min(%) D/Q2min(%)
LO NNNLO LO NNNLO
0.1-0.2 -.007 0.01 0.5 -14 2
0.2-0.3 -.11 0.003 1.0 -11 0.0
0.3-0.4 -.06 -0.01 1.7 -3.5 -0.5
0.4-0.5 .22 0.11 2.6 8 4
0.5-0.6 .85 0.39 3.8 22 10
0.6-0.7 2.6 1.4 5.8 45 24
0.7-0.8 7.3 4.4 9.4 78 47
F2(x,Q2)=F2(x)(1+D(x)/Q2) Q2=(W2-M2)/(1/x-1) Q2min=Q2(W=2)
If D(x)~C(x), Parity might show higher twist At high x without needing QCD evolution.
MRST, PLB582,222 (04)
APV=APV(1+C(x)/Q2)
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June 6, 2009 Higher twist summary 17
F2D(x): All x on Same Scale
Are momentsdominated by
large x?
Plot by Mindy
Caution:target mass
not subtracted
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June 6, 2009 Higher twist summary 18
D(x) versus x Fractional HT
APV at largex is very sensitive
to HT
Plot by Mindy
Probably quark-gluon(but it could bequark-quark)
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June 6, 2009 Higher twist summary 19
x-dependence of Higher Twist
• Relative 4-quark higher twist should increase with x???
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June 6, 2009 Higher twist summary 20
Target Mass Corrections
• Talk by Tim.• Various methods. (Subject is
complex)• Lots of cancellation.• Errors negligible if corrections are
done consistently with other corrections.
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June 6, 2009 Higher twist summary 21
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June 6, 2009 Higher twist summary 22
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June 6, 2009 Higher twist summary 23
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June 6, 2009 Higher twist summary 24
New Strategy for b(x) HT
• Use data for F2γ
• F3ν HT data provides some
information on F3γZ HT
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June 6, 2009 Higher twist summary 25
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June 6, 2009 Higher twist summary 26
Measured Higher Twist in F3 and FL
γ
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June 6, 2009 Higher twist summary 27
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June 6, 2009 Higher twist summary 28PAC34
Statistical Errors (%) vs Kinematics
4 months at 11 GeV
2 months at 6.6 GeV
Error bar σA/A (%)shown at center of binsin Q2, x
Strategy: sub-1% precision over broad kinematic range for sensitive Standard Model test and detailed study of hadronic structure contributions
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June 6, 2009 Higher twist summary 29
Coherent Program of PVDIS Study
• Measure AD in NARROW bins of x, Q2 with 0.5% precision• Cover broad Q2 range for x in [0.3,0.6] to constrain HT• Search for CSV with x dependence of AD at high x• Use x>0.4, high Q2, and to measure a combination of the Ciq’s
Strategy: requires precise kinematics and broad range
x y Q2
New Physics no yes no
CSV yes no no
Higher Twist yes no yes
2
23)1(
11 x
QxAA CSVHT Fit data to:
C(x)=βHT/(1-x)3
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June 6, 2009 Higher twist summary 30
Sensitivity with PVDIS
RCSV APV x APV x 0.28
u x d x u x d x
Thanks to K. Paschke
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June 6, 2009 Higher twist summary 31
Sensitivity: C1 and C2 Plots
Cs
PVDIS
Qweak PVDIS
World’s data
Precision Data
6 GeV
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June 6, 2009 Higher twist summary 32
Fits
Plot by Mindy
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June 6, 2009 Higher twist summary 33
Other Strategies
• Above analysis assumes SM, HT, and CVS physics are all in play.
• Each of these effects may be small.• As an approximation, we can do
three additional analyses in which either SM, CSV, or HT effects are neglected.
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June 6, 2009 Higher twist summary 34
APV in DIS on 1H
APV GFQ2
2a(x) f (y)b(x)
a(x)u(x) 0.91d(x)u(x) 0.25d(x)
•Determine that higher twist is under control•Determine standard model agreement at low x•Obtain high precision at high x
•Allows d/u measurement on a single proton!•Vector quark current! (electron is axial-vector)
a(x)3
2
2C1uu(x) C1d (d(x) s(x))
4u(x) d(x) s(x)
b(x)3
2
2C2uuv (x) C2d dv (x)
4u(x) d(x) s(x)
+ small corrections
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June 6, 2009 Higher twist summary 35
PVDIS on the Proton: d/u at High x
Deuteron analysis has largenuclear corrections (Yellow)
APV for the proton has no such corrections(complementary to
BONUS)
The challenge is to get statistical and systematic errors ~ 2%
)(25.0)(
)(91.0)()(
xdxu
xdxuxaP
3-month run
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June 6, 2009 Higher twist summary 36
Higher Twist without the QPM
xdeDVxVDlVV xiq 4|)0()(|
4
4
|)0()(|
|)0()()0()(|
deDjxjDl
xdeDjxJJxjDlA
xiq
xiq
dduuSdduuV
SSVV
SSCCVVCCA
dudu
31
)(31
)( 1111
xdeddxuxuDlSVSVSSVV xiq 4)0()0()()(|))((
SSVV
SSVV
3.01A
Bjorken, PRD 18, 3239 (78)
Wolfenstein,NPB146, 477 (78)
Zero in QPM
Higher-Twistquark-quark correlations
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June 6, 2009 Higher twist summary 37
Electron-Quark Phenomenology
C2u and C2d are small and poorly known: one combination can be accessed in PV DIS
New physics such as compositeness, leptoquarks:
Deviations to C2u and C2d might be fractionally large
A
V
V
A
C2’s are a factor of 7 smaller than the C1’s