1 top and tau measurements tim barklow (slac) oct 02, 2009
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Top and Tau Measurements
Tim Barklow (SLAC)
Oct 02, 2009
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Examples of early LHC discoveries from M. Peskin, Rethinking the LHC-ILC Connection:
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• Top Mass and stot: ILD
• Top AFB: SiD
• Tau stot, AFB and Decay Mode ID: SiD
• Tau Polarization: ILD
The top and tau analyses of ILD and SiD are very similar.For each topic I will discuss the analysis of just one detector concept in detail while noting differences. At the end of the talk I will present the results from all concepts.
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Top Mass & s Measurement
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(100 fb-1)
SiD uses both line-shape and template mass fitting techniques
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ILD Mt & stt
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Top AFB Measurement
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b quark Afb post LOI update
No cut on combined charged: ChargeJet1 x ChargeJet2<1
Efficiency = 22.7%
Purity=58.1%
Impurity composition:
SM bkgd 45.9%
ttbar with wrong b-jet charge 45%
ttbar with wrong b-jet id 9.1%
Afb(b)=0.293+0.008
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0.356+0.008
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Tau stot, AFB and Decay Mode ID
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Tau selection and background• Event cuts: 2-6 tracks, 40<Evis<450 GeV • Event cuts: 2-6 tracks, 100<Evis<450 GeV • Tau jet clustering, 2 jets, each cosθ < .95• Opening angle > 178 degrees• Eliminate events with both mu or both e• Selects 17.4% of all tau pairs, 72% of minE > 240• Background from other SM 2.4%
entries/10 GeV
Energy of least energetic tau (GeV)
50 100 150 200 2500
10,000
20,000
30,000
40,000
50,000
60,000
70,000
Selected tau pair events
All tau pair events
+80e- -30e+ -> tau+tau-
entries/25GeV
Tau+Tau- Mass (GeV)
100 200 300 400 5000.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6x10
5
Selected tau pair events
All tau pair events
-80e- +30e+ -> tau+ tau-
visPost-LOI: Increase min E cut
to remove events
which had low stats & high weight
in fully simulated SM bgnd sample.
Gives 3% loss in signal efficiency.
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Tau pair cross section and AFB
The selected sample of mostly full energy taus is used to measure
the tau pair cross section and
The total cross section precision is 0.28%
at 500 GeV.
was measured by fitting the tau c
.
FB
FB
A s
A
2
1
1
0.5038 0.0021 for 250 fb
o
with (80% ) (30% )
0.4704 0.0024 for 250
s distribution to
81 cos cos
c
fb with (80% ) (30% )
os 3
F
FB
B
FB
A e L e R
A e R e
dA
d
L
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Decay mode selection using modification of SiD pfa
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Rho reconstruction
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Θ* = angle between rho and tau in tau rest frame
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β = angle between pi+- in rho rest frame
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Tau decay mode purity and efficiency
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Tau Polarization Measurement
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• – Separated by lepton-ID (high eff.)– Polarization information is lost by two missing
neutrinos•
– 1 charged p, moderate BR, good for pol. derivation
• – 1 charged p+2 g photon separation (detector)
Decay modes in Apol analysis 4 decay modes:
r (770 MeV mass, 150 MeV width)
Minimize stat. error by combining decay modes
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• Polarization calculation varies by decay modes.– Energies and angles of/between daughters– Better if single criterion can be used in all decay
modes.
→ optimal observable w– expression of w differs by decay modes, but w
canbe summed up through all decay modes.(multi-dimensional fit in each decay mode is not needed)
– Developed in LEP.
Optimal observable
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Optimal observable
(x: lepton energy / tau energy)
(2 energies and 3 angles, 5 parameters)
(4. a1 : almost ready…)
SiD:
2 1l x ILD:
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• Apply w formula on sample ofinitial polarization P(e+, e-) = (30%, 80%)
Optimal observable distribution
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• Summed up 4 w distributions– Process background is excluded (short statistics)
• Obtain P(t)• Obtain P(t) stat. error with 500 fb-1
Polarization of tau
P(t) = -63.82 ± 0.66% (e-Le+
R)P(t) = +50.83 ± 0.79% (e-
Le+R)
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• should help with polarization measurement– 3 degrees of freedom of tau four-vector– 3 constraints:
1. 2. tau/hadron angle from two-body decay
kinematics3. tau track must meet the hadron track at a
point (1-prong) or the vertex (3-prong)– can be solved for tau direction analytically
Tau flight direction
a sneak preview of this concept will be shown for 1-prong eventsusing first-order approximation for tracks (using line segment instead of helix)
IP
hadron
neutrino
tau θ
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Tau flight direction (1-prong events)tau direction residual (reco –
mc)tau
(tau reco – tau mc)
hadron(hadron reco – tau
mc)- hadron dir
(reco)- tau dir (reco)- tau dir (mc)
tau direction in lab frame
tau direction successfully reconstructed (3-prong work next)better than assuming tau dir = hadron dir (rms: 0.0059 > 0.0050)
x,y residuals look similar
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Summary of Results from the Detector Concept Groups
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4th
ILD
( ) / ( )
59
40 0.0040 0.008
4Si 5 0.0045 0.008D
t FBtt ttM MeV A tt
1
Top Measurements in fully hadronic mode
for 500 GeV and 500 fb luminositys
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1
1
Mode Eff Purity Eff Purity
0.989 0.989 0.991 0.977
0.988 0.993 0.993 0.989
0.960 0.895 0.933 0.917
0.790 0.874
1-prong 0.675 0.734 0.732 0.621
3-prong 0.911 0.889 0.914 0
0.916 0.
.9
886
05
e
a
a
Tau Decay Mode Efficiencies
and Purities at 500 GeVs
ILD SiD
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/ ( ) ( )
ILD 0.0029 0.0025 0.0066 0.0079
SiD 0.0028 0.0015 0.0065 0.0017 0.0072
FB FBA P A P
1
Tau Cross Section, and for
500 GeV and 500 fb luminosity
FBA P
s
( , ) ( 30%, 80% ) P e e ( , ) ( 30%, 80% ) P e e
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ConclusionILD (SiD) have demonstrated that they can measure the mass of the top quark in the fully hadronic channel at Ecm=500 GeV with 40 (45) MeV statistical precision. They have also shown that the vector and axial-vector couplings of the top quark can be measured through the forward-backward asymmetry in the challenging fully hadronic mode with a precision of 0.008
ILD and SiD can identify the decay modes of 250 GeV tau leptons with purities and efficiencies in the 90% range. They both measure the tau polarization with an accuracy of 0.7%.
Future studies of top quark coupling measurements would involve top polarization studies with optimal observables.
Future studies of tau coupling measurements are already underway in ILD with the addition of the a1 decay mode and the incorporation of vertex detector information to further constrain the tau direction.
ILD and SiD are well positioned to take the next steps in studies of top and tau couplings: