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MET Significance. New Physics Neutralinos (SUSY) Gravitinos (Xtra dim) Heavy photon (Littlest Higgs with T-parity) Unparticles, hidden valley stuff, etc Something else…. E T has many possible sources. Old Physics and Detector Issues Jet Mismeasurement (resolution)
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MET Significance New Physics • Neutralinos (SUSY) • Gravitinos (Xtra dim) • Heavy photon (Littlest Higgs with T-parity) • Unparticles, hidden valley stuff, etc • Something else… ET has many possible sources Old Physics and Detector Issues • Jet Mismeasurement (resolution) • Underlying event/ unclustered energy • Neutrinos in b, c jets • Znn, W nl • Muons • Pile up (at hi lumi) • Hot/dead cells, cracks, dead regions We want to identify New Physics and suppress the rest Jim Alexander
L( ET event) D0 idea: Use Likelihood Method(B. Knuteson et al, D0 Note 3629) Example: distinguish measurement error from real MET Probable Mismeasurement Possible MET candidate MET Fluctuations can cause this MET Fluctuations are unlikely to cause this Can we construct a likelihood function to distinguish these cases evt by evt? Jim Alexander
D0 Study(A. Schwartzman, D0 Note ????) • Signal: W+jets Bkg: QCD ≥ 2jets. • For 50% signal eff (example) bkg eff is 7.5% with ordinary MET cut, • Bkg eff is 3.8% with MET signif cut. D0 study MET Significance cut Signal Efficiency Simple MET cut Example MET Significance improves bkg suppression x2 Background Efficiency Jim Alexander
MET Significance for CMS… • MET Significance is on this group’s official to-do list • First steps taken by Koji Terashi (now gone to ATLAS…) • Our plan: • Start with one issue: jet mismeasurement. (Save others for later…) • Construct toy Monte Carlo • explore general features of the problem in a simple environment • develop structure, code, math • Move to CSA07 / Spring07 Monte Carlo samples: QCD, W nl • Add other features one by one: • b, c jets • underlying event • detector flaws • etc • Develop general tool for use by all • Apply to a first physics measurement: W nl Today’s talk Jim Alexander
Jet Mismeasurement • Likelihood functions for combining mis-measured vectors. • If you add two vectors (think of these as jet vectors, with resolution smearing) • where is the resultant likely to end up? • This is a 2d likelihood function, L(ex,ey), which can be used to plot likelihood contours in the ex,ey plane. Jim Alexander
Gaussian case is elegant • If the primordial likelihood functions are gaussian, then everything is analytical. • Likelihood shape is simply characterized: V • Gaussians convolve to give more gaussians f1 -f2 2 If not gaussians, linear combos of gaussians is just as easy to use. Jim Alexander
Definition of the Significance • Based on jet measurement uncertainties (black ellipses), calculate the uncertainty of the ET vector… red ellipses • Define S = ln • In this illustration, 3.5s, S = 6.1 4 3.5 3 2 Contours shown: -2lnL = -2lnLmin+ {1,4,9,…} 1 ( ) L(ET=observed) L(ET=0) Jim Alexander
Angular effects are automatic • In the example from p2, what makes the MET on the right look anomalous is largely its direction • Error ellipses automatically take this into account. > 4s MET < 1s MET Jim Alexander
Toy Monte Carlo Studies • Contents of the toy Monte Carlo: • 2-5 “jets” per event, poisson distributed <2.5> • Jet “ET” is flat between 10 and 100 • “Measured” Jet ET vector is smeared by • s(ET)/ ET = 144%/Sqrt(ET) • s(f) = 2O • ~100 lines of code: VERY SIMPLE • Generated ET can be set to 0 or to any desired value. We will call ET=0 samples “QCD”, and ET=40 samples, “W nl ” Warning: Despite the nomenclature,there is no physics in this! This is totally made up…. don’t over-interpret! Purpose is to explore general features and methods. Jim Alexander
Example from Toy Monte Carlo • Blue arrows are the “true” underlying jet vectors. • Dots are results of 10k smearings of the same true underlying event • Contours are calculated values of -2lnL • In this case,true MET was fixed at 20. (Green arrow) “Event Display” Jim Alexander
Compare “QCD” and “W nl” events in the Toy Monte Carlo MET Significance Generate 10k evts with ET=0 (QCD) and 10k evts with ET=40 (W nl) “QCD” events: ET(true)=0 “Wnl” events: ET(true)=40 Significance Jim Alexander
“Signal” Eff and “Background” Effin Toy Monte Carlo “Signal” = “W” events “Background” = “QCD” events Compare cut on MET significance with simple cut on MET itself. MET Significance cut Simple MET cut D0 Plot, from p3. Jim Alexander
Summary & Plans • So far: • Toy Monte Carlo only • Jet mismeasurement is the only effect considered (resolution smearing) • General structure and approach clarified by this exercise • Next: • QCD and EWK CMSSW files: expose method to “real” physics • Add more components to the likelihood: semileptonics in b, c jets, underlying event, etc etc. • Eventually: apply to W, W+jets • Lots to do! • Participants… • Xin Shi * • Kyle Story * • Deb Mohapatra ** * grad student * post doc Jim Alexander