Title: W Charge Asymmetry
1W Charge Asymmetry
- Cigdem Issever, Adam Scott and David Stuart
- UCSB
- CDF-Note 6282, Measurement of the W-gte nu Charge
Asymmetry - CDF-Note 6108, Alignment of the Plug Calorimeter
- CDF-Note 6412, QCD Background of Plug Ws
2W Charge Asymmetry
3W Charge Asymmetry
4Essentials for W Charge Asymmetry
- Plug electron identification with Phoenix
SiTracking - Plug and Silicon
- Charge determination
-
5Charge ID
Charge determination critical. Charge
misidentifation fqwrong/total dilutes the
asymmetry. Correct for it Atrue
Ameas/(1-2fq) So, make fq small and measure
it. MC predicts fq 1. But MC has no residual
mis-alignments, etc--gt We must measure fq in
data. Measured fq(eta) with Z-gte e-
6Z Event Selection
- Baseline electron selection with COT or Phoenix
Track and Etgt25GeV. - Phoenix Track selection optimized for small fq
- SiRPhiHits gt 4
- Chi2 lt 8
- Delta Chi2 gt 0.5
- Pull lt 0.4
- (Chi2_Seed/dof for track with
lesser Chi2_total/dof) - (Chi2_Seed/dof for track with
greater Chi2/dof) - 80 lt Meelt100 GeV and compare central Qtag
7Mee Distribution
CDFII Preliminary ?Ldt170/pb
CDFII Preliminary ?Ldt170/pb
Central
Plug
Data (west, east) MC
Corrected energy scale in MC
8Charge Mis-ID Rate
CDFII Preliminary ?Ldt170/pb
fqPHX
fqCOT
Errors calculated with Bayesian prescription
CDF5894
9W Event Selection
Baseline electron selection w/ PHX track.
ETgt25 GeV Missing ET gt 25 GeV 50 lt MT lt 100
GeV/c2 No other EMO with ETgt25 GeV to
suppress QCD and DY
10Kinematic Distributions MT and ET
Data (west, east) MC
CDFII Preliminary ?Ldt170/pb
Central
Plug
Plug
Central
11Kinematic Distributions MET and h
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Data (west, east) MC
Plug
Central
h
12Kinematic Distributions f
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Data MC
Central
f
Plug
f
13Raw Asymmetry
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Curve is just a fit to guide the eye.
14Raw Asymmetry
CDFII Preliminary ?Ldt170/pb
Curve is just a fit to guide the eye.
15Background
- We correct the asymmetry for backgrounds from
- W ? tn ? enn (trippled statistic)
- Asymmetric, measured from MC
- Z? ee-
- Asymmetric, measured from MC
- QCD
- Symmetric, measured from data CDF 6412.
- Use Iso vs MET.
16QCD Background systematic
- Check assumption of non-correlation
- small systematic, as long as we dont use the
- PEM 3x3 c2 or 5x9 cuts (they are correlated
with Iso) - ? upper limit by about a factor of 2.
17QCD Background
CDFII Preliminary ?Ldt170/pb
QCD fraction
h
We use 0.5 0.25. Becomes significant for h gt1.8
18Corrected Asymmetry
CDFII Preliminary ?Ldt170/pb outer error bars
total error inner error bars statistical error
Band correlated error from Energy scale
uncertainty
19CP Check
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20A(h)
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21A(h)
FMU
Compared to Run1 em
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22Getting more sensitivity to AW
23Getting more sensitivity to AW
35 lt ET lt 45
25 lt ET lt 35
24AW for 25 lt Et lt 35 GeV
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Band correlated error from Energy scale
uncertainty
25AW for 35 lt Et lt 45 GeV
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Band correlated error from Energy scale
uncertainty
26AW(h) with 25 lt ET lt 35 GeV
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27AW(h) with 35 lt ET lt 45 GeV
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28AW(h) for different ET ranges
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29Conclusion
- We measured the W Charge Asymmetry
- Provides new PDF constraints
CDFII Preliminary ?Ldt170/pb
CDFII Preliminary ?Ldt170/pb
Joey Huston, CTEQ6.1 (ResBos NLO,NLL)
Higher Pt prediction indicates that data has more
pdf discrimination