W Mass and Width at LEP2 Jeremy Nowell ALEPH / Imperial College London On behalf of the LEP collaborations.

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Presentation transcript:

W Mass and Width at LEP2 Jeremy Nowell ALEPH / Imperial College London On behalf of the LEP collaborations

25 July 2002Jeremy Nowell - ICHEP022 Overview Introduction W mass and width from direct reconstruction –Event selection –Invariant mass reconstruction –Mass and width extraction –Systematic uncertainties Results Summary and outlook

25 July 2002Jeremy Nowell - ICHEP023 Introduction W Mass central component of Standard Model M W predicted indirectly using G F,  and M Z from LEP1: Direct measurement of M W provides –Test of Standard Model –Constraint on Higgs mass LEP2 provides clean environment Total of ~2500 pb -1 data yields ~40,000 WW events Contributions from M H and m t

25 July 2002Jeremy Nowell - ICHEP024 Event Selections Channel Branching ratio~10%~44%~46% Typical SignatureTwo energetic, acoplanar leptons Large missing energy and momentum Two hadronic jets, one energetic isolated lepton, missing energy and momentum Four hadronic jets, little missing energy and momentum Main Backgrounds ZZ,Zee,  We, qq(  )qq(  ) Efficiency~50%~70%~85% Purity~90%~95%~80% l l l jet

25 July 2002Jeremy Nowell - ICHEP025 Invariant Mass Reconstruction Cluster jets and reconstruct lepton Apply kinematic fit –Use precise knowledge of E CM to constrain energy and momentum of event –Improves resolution –Optional equal mass constraint In the fully hadronic channel need to pair jets (three-fold ambiguity) Form Invariant Mass:

25 July 2002Jeremy Nowell - ICHEP026 Reconstructed M W ALEPH  qq DELPHI e qq OPAL  qq  qq L3 qqqq

25 July 2002Jeremy Nowell - ICHEP027 W Mass and Width Extraction Two main methods –Monte Carlo reweighting Weight Monte Carlo (with known M W ) to fit data. Data and MC treated identically, no bias correction needed –Convolution technique Fit reconstructed mass distribution with function convoluting Breit- Wigner function and detector resolution Correct bias by calibrating using Monte Carlo SM model relationship between M W and  W assumed Width obtained in 2 parameter fit –No relationship between M W and  W assumed

25 July 2002Jeremy Nowell - ICHEP028 Systematic Uncertainties W mass measurement now dominated by systematic uncertainties: Total syst 30 MeV Total stat 30 MeV Weight of qqqq channel 9%! In absence of systematics, statistical error = 22 MeV!

25 July 2002Jeremy Nowell - ICHEP029 LEP Beam Energy LEP centre of mass energy used in kinematic fit, translates directly to error on M W : Fully correlated between channels and experiments E beam obtained from measurements of total bending field Calibrated using resonant depolarisation –Only works up to 60 GeV, extrapolated to LEP 2 energies –Extrapolation gives main uncertainty on beam energy: Cross checks ongoing Expect final paper and value of uncertainty later this year

25 July 2002Jeremy Nowell - ICHEP0210 Largest uncertainty from analysis –Assumed correlated both between channels and experiments –Important for both qqqq and lvqq channels Limitations of Monte Carlo to simulate particle content of jets (e.g. Baryon rates), and particle spectra. Interplay with detector simulation Compare different MC models (JETSET, ARIADNE, HERWIG) – take largest difference as error Work on comparison of data with MC used in analysis ongoing, expect decrease Fragmentation / Hadronisation  18 MeV

25 July 2002Jeremy Nowell - ICHEP0211 Final State Interactions Two effects, possible causing miss-assignment of particles to Ws: –Colour Reconnection Hadronisation of Ws not independent Affects low momentum interjet region –Bose-Einstein Correlations Between identical bosons (pions and kaons) close in phase space Cross talk between pions from different Ws Only phenomenological models available! WW decay vertices typically separated by ~ 0.1 fm, while hadronisation scale ~ 1 fm

25 July 2002Jeremy Nowell - ICHEP0212 FSI: Bose-Einstein Correlations Use LUBOEI model implemented in JETSET, compare MC with and without BEC. Uncertainty of 35 MeV (Full BE effect) Dedicated studies suggest BE effects between different Ws disfavoured Certain to be reduced by propagating limit to W mass measurement

25 July 2002Jeremy Nowell - ICHEP0213 FSI: Colour Reconnection Several models –String based (SK family, Rathsmann GAL), implemented in JETSET –ARIADNE – colour dipoles –Cluster based (Herwig) Typical shifts: SK-I parameter k I < 2.13, leads to mass shift of 90 MeV! (Corresponds to ~49% reconnected events at 189 GeV) SK-I 100%300 MeV ARIADNE AR MeV Rathsmann40-60 MeV Herwig30-40 MeV So far only limits come from particle flow method (See talk of E. Bouhova later)

25 July 2002Jeremy Nowell - ICHEP0214 FSI: Colour Reconnection Use M W to measure CR Expect CR to affect particles which are –Low momentum –In the interjet region Two methods studied –Remove low momentum particles from jets, P cut –Re-compute jet angles using a cone algorithm

25 July 2002Jeremy Nowell - ICHEP0215 FSI: Colour Reconnection(DELPHI) Different mass estimators exhibit different sensitivity to k I parameter: Look at difference in estimators,  (M W ) = M W (std)-M W (cone) High correlation, uncertainty small Value obtained from data:  (M W ) = 36 ± 36 ± 25 MeV/c 2 (Preliminary value) Decrease in mass bias due to CR offset by loss of statistical precision

25 July 2002Jeremy Nowell - ICHEP0216 FSI: Colour Reconnection(DELPHI) Minimum at k I =0.89 Systematics studied: –Fragmentation –BE –Energy flow in jet Correlation between  (M W ) and M W small (11%) Other models predict –Herwig: –  (M W ) = 23 ± 6 MeV/c 2 –Ariadne: –  (M W ) = 3 ± 5 MeV/c 2 Can be combined with particle flow measurement

25 July 2002Jeremy Nowell - ICHEP0217 FSI: Colour reconnection (ALEPH) Can also use differential behaviour of W mass difference vs P cut / cone radius. Assume linear behaviour, use slope as estimator Can use for other models

25 July 2002Jeremy Nowell - ICHEP0218 FSI: Colour reconnection (ALEPH) Systematics on slope: Ultra conservative estimate to get upper limit on k I Each systematic is treated as a bias –Linear sum of biases –Systematics added in quadrature to statistics

25 July 2002Jeremy Nowell - ICHEP0219 FSI: Colour reconnection (ALEPH) CR affects the mass distribution –Shift of central/mean value –Distortion Mass shift vs P cut gives handle on first point Second point can be addressed by studying variation of fitted mass error vs P cut Provides information on other models, particularly ARIADNE 2 Very Preliminary!

25 July 2002Jeremy Nowell - ICHEP0220 Results qqqq-qqlv: 9±44 MeV qqlv: ±0.043 GeVqqqq: ±0.107 GeV

25 July 2002Jeremy Nowell - ICHEP0221 Results M W : ±0.042 GeV  W : 2.150±0.091 GeV

25 July 2002Jeremy Nowell - ICHEP0222 Outlook Just reduce FSI systematics: –Reduce CR to 40 MeV –BE to 5 MeV –Total error ~38 MeV Lose some stats to further reduce FSI –CR to 20 MeV –Total error ~36 MeV Total error of 35 MeV possible?

25 July 2002Jeremy Nowell - ICHEP0223 The combined preliminary LEP W mass and width measurements are: Future prospects: –Reduce FSI systematics –Work on fragmentation –LEP energy Match statistical error with systematics? Summary and Outlook M W = ±0.042 GeV  W = 2.150±0.091 GeV

25 July 2002Jeremy Nowell - ICHEP0224 LEP Beam Energy Check extrapolation with 3 methods: Energy Loss measurements - based on RF voltage needed to compensate for energy loss due to synchrotron radiaton Spectrometer: Measure bend angle of lepton due to dipole using Beam Position Monitors Needs precise measurement of magnetic field Compare peak of radiative return events with Z mass (See talk of Chris Ainsley later)