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PV DIS: SUSY and Higher Twist
M.J. Ramsey-Musolf
CaltechWisconsin-Madison
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S. Mantry, K. Lee, G. Sacco Caltech
Outline
I. PV DIS & new physicsModel independent
analysis SUSY effects
II. PV DIS & Higher twist Puzzles from JLab data
The twist expansion What does
QCD predict? Q2-dependence, operator
matrix elements
III. General remarks
I. PV DIS & New physics
Model Independent Constraints
Low energy effective PV eq interaction
PV DIS eD asymmetry: leading twist
Model Independent Constraints
P. Reimer, X. Zheng
QW and SUSY Radiative Corrections
Tree Level
Radiative CorrectionsFlavor-dependent
Flavor-independent
Normalization Scale-dependent effective weak mixing
Constrained by Z-pole precision observables
Like QWp,e ~ 1 - 4 sin2W
SUSY Radiative Corrections
Propagator
Box
Vertex & External leg
€
˜ e −
€
˜ e +
€
+L
€
+
€
e−
€
f€
Z 0
€
γ
€
˜ χ −
€
˜ χ +€
e−
€
e−€
e−
€
f
€
f€
f
€
γ
€
Z 0
€
˜ χ 0
€
˜ e − €
˜ χ −
€
˜ χ −
€
+
€
+L
€
e−€
e−
€
e−
€
e−
€
f€
f
€
f€
f
€
Z 0
€
Z 0
€
˜ e −
€
˜ ν e
€
˜ ν e
€
+L
€
e−€
e−
€
f€
f
€
˜ f
€
˜ χ
€
˜ χ
SUSY RPV Effects
e−
d e−
d
˜ q Lj
1j1
1j1Δ1j1
/ =λiji
/ 2
4 2GFM˜ q Lj
2
Comparing AdDIS and Qw
p,e
e
p
RPV
Loops
Probing SUSY with PV eN Interactions
111/ ~ 0.06 for mSUSY ~ 1 TeV
sensitivity
k31 ~ 0.15 for mSUSY ~ 1 TeV
!eγ LFV Probes of RPV:
k31 ~ 0.03 for mSUSY ~ 1 TeV
!e LFV Probes of RPV:
12k ~ 0.3 for mSUSY ~ 1 TeV & QWe / QW
e ~ 5%
Lepton Flavor & Number Violation
0.1
1
10
100
1000
Effective
( )Mass meV
12 3 4 5 6 7
12 3 4 5 6 7
12 3 4 5 6 7
1 ( )Minimum Neutrino Mass meV
U1e = .866 m2
sol = 7 meV
2
U2e = .5 m2
atm = 2 meV
2
U 3e =
Inverted
Normal
Degenerate signal equivalent to degenerate hierarchy
Loop contribution to m of inverted hierarchy scale
111/ ~ 0.06 for mSUSY ~ 1 TeV
II. PV DIS & Higher Twist
Preliminary
Probing the strange sea with PV
World Data 4/24/06
GMs = 0.28 +/- 0.20
GEs = -0.006 +/- 0.016
~3% +/- 2.3% of proton magnetic moment
~20% +/- 15% of isoscalar magnetic moment
~0.2 +/- 0.5% of Electric distribution
Courtesy of Kent Pashke (U Mass)
Consistent with s-quark contributions to mP & JP but smaller than early theoretical expectations
First look beyond the quark model
Not surprising: ms / ~ 0.15
Great success for the JLab mission
Probing Higher Twist: Beyond Probing Higher Twist: Beyond the Parton Modelthe Parton Model
Alekhin NNLOMRST NNLOMRST NNLO withBarbieri Target Mass Corrections
• Smooth transition from DIS (solid squares) to resonance region • Resonances oscillate about perturbative curves (quark-hadron duality in transverse channel) - all Q2
•Target mass corrections large and important
2xF2xF1 1 Experimental StatusExperimental Status
Data from JLab E94-110 (nucl-ex/0410027, submitted to PRL) Courtesy C Keppel
~ 50% fluctuations about leading twist
n = 2 Cornwall-Norton Momentsn = 2 Cornwall-Norton Moments
FFLL
2xF2xF11
F2, F1 in excellent agreement with NNLO + TM above Q2 = 2 GeV2
No (or canceling) higher twists
Yet, dominated by large x and resonance region
Remove known HT (a bit novel), the elastic, and there is no more down to Q2 = 0.5 GeV2
The case looks different for FL (data or curve?)
FF22
Where are the qq and qqg correlations ?
Twist Expansion
twist 2
twist 4
Light cone expansion: x2 ~ 0
Momentum sum rules
Twist = d(n) - j
Power corr:
Jaffe ‘97
Twist Expansion
twist 2
twist 4
Light cone expansion: x2 ~ 0
Momentum sum rules
Twist = d(n) - j
Power corr:
Twist Expansion: Q2 Evolution
Twist two
Singlet moments: 2 x 2 mixing only
Non singlet
Singlet
Singlet
Twist four: correlations
Operator mixing: basis size grows with n (for nth moment)
Twist Expansion : Q2 Evolution
Equivalence to parton model: twist two
Anomalous dimension
DGLAP splitting function
No known analog for twist four
Need RGE & anom dim computation
Twist Expansion : Q2 Evolution
Twist two
Singlet moments: 2 x 2 mixing only
Non singlet
Singlet
Singlet
Twist four: correlations
Operator mixing: basis size grows with n (for nth moment)
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+ …
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+ …
+ …
+ …
+ …
Flavor: isosinglet mixing
Probing Higher Twist: Beyond Probing Higher Twist: Beyond the Parton Modelthe Parton Model
Alekhin NNLOMRST NNLOMRST NNLO withBarbieri Target Mass Corrections
• Smooth transition from DIS (solid squares) to resonance region • Resonances oscillate about perturbative curves (quark-hadron duality in transverse channel) - all Q2
•Target mass corrections large and important
2xF2xF1 1 Experimental StatusExperimental Status
Data from JLab E94-110 (nucl-ex/0410027, submitted to PRL) Courtesy C Keppel
~ 50% fluctuations about leading twist
n = 2 Cornwall-Norton Momentsn = 2 Cornwall-Norton Moments
FFLL
2xF2xF11
F2, F1 in excellent agreement with NNLO + TM above Q2 = 2 GeV2
No (or canceling) higher twists
Yet, dominated by large x and resonance region
Remove known HT (a bit novel), the elastic, and there is no more down to Q2 = 0.5 GeV2
The case looks different for FL (data or curve?)
FF22
Where are the qq and qqg correlations ?
>> 10 % ??
•Are twist 4 matrix elements suppressed or canceling?
•Need C(Q2) to unpack matrix elements from data
• Complementary probes (PV DIS) could provide new insight
Probing Higher Twist with PV
Sacco, R-M preliminary
€
APV Q2
€
y
Looking beyond the parton descriptionPV Deep Ineslastic eD (J Lab 12 GeV)
~0.4%
E=11 GeV =12.50
Different PDF fits
Theoretical Challenges
pQCD evolution of twistfour moments
Lattice QCD for =4 matrix elements
Organizing the program:what kinematics, complementarity with PC F1,2 , …
Early days of PVES to probe strangeness:
Extensive theoretical work to ensure results would be intepretable and meaningful (many thanks to T.W. Donnelly)
We can do the same for PV DIS
III. General remarks
• PV DIS provides a comprehensive probe of QCD beyond the parton model & possible deviations from the SM EW sector
• Looking beyond the parton model is a natural continuation of the JLab strange quark searches
• Rich set of challenges for theory & experiment: higher twist, CSB in pdfs, d/u…
• Important complement to 12 GeV Moller that would be a focused and powerful probe of EW SM & possible new physics