P. Vahle, Oxford Jan. 2006 1 F/N Ratio and the Effect of Systematics on the 1e20 POT CC Analysis J. Thomas, P. Vahle University College London Feburary.

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Presentation transcript:

P. Vahle, Oxford Jan F/N Ratio and the Effect of Systematics on the 1e20 POT CC Analysis J. Thomas, P. Vahle University College London Feburary 8,2006 Outline: I.The Ratio Method+Fitter II.Updated MDC Results III.Updated Contours and Pseudo experiments IV.The Systematics studied V.Updated Results VI.Conclusions

P. Vahle, Oxford Jan Introduction Using the F/N ratio, we predict the FD spectrum, then use this prediction to fit a modified MC set that has been oscillated with given parameters Modifications simulate different systematics Compare with fits to standard MC to see effect of systematic Using R LE10 MC for this study

P. Vahle, Oxford Jan The Ratio Method Now using F/N ratio in reconstructed energy Avoids one extra reco vs. true transformation in ND

P. Vahle, Oxford Jan Cuts Comparing 4 different event selection techniques: Preselection “Accepted” Fid. Vol in both detectors Ntrack>0 Pass_track==1 Litime==-1 (FD) Event doesn’t start or end on crate boundary (FD) TV—preselection plus: Consistent uv vertex If curvy, error in (q/p)/(q/p)<0.3 90% of shower in fully instrumented region (ND) Charge <0 Track z vertex>0.6m No other event within 50ns DP—preselction plus: Dave pid>-0.1 in near, -0.2 in far Dircosneu>0.6 NS—preselection plus: Niki pid<0.2 in near, 0.25 in far Dircosneu>0.6

P. Vahle, Oxford Jan Ratio Performance Ratio Predicted/Real LE10 FD Reco E ν Black—prediction of LE10 FD Reco E v spectrum using F/N from LE MC Pink—Real LE10 FD Reco E v spectrum

P. Vahle, Oxford Jan Fitting Uses Miniuit Maximize Log Likelihood between data and ratio predicted FD spectrum by varying osc. parameters and oscillating FD predicted spectrum 3 parameters included –dm 2 –sin 2 (2θ) –overall normalization—with a 4% penalty term

P. Vahle, Oxford Jan Updated MDC Results Our Results: Δm 2 =0.0021± eV 2 sin 2 (2θ)=0.97+/-0.07 Norm=1.01+/-0.02 Dave’s Results: Δ m 2 = eV 2 sin 2 (2θ)=0.925 Truth: Δm 2 = eV 2 sin 2 (2θ)=0.881 With penalty term for normalization

P. Vahle, Oxford Jan Sensitivity, no systematics Fit MC against MC For Four different selection techniques

P. Vahle, Oxford Jan Sensitivity For Four different selection techniques Take all the difference between data/MC—propagate it incorrectly to FD

P. Vahle, Oxford Jan Sensitivity For Four different selection techniques F/N modulated by hadron production reweighting

P. Vahle, Oxford Jan Pseudo experiment —Fake Data Generation Modify MC sample to include effects of systematic (described later) Oscillate NOW, fluctuate total number of expected events by poisson, select that many events from total oscillated spectrum –Previous fluctuations allowed larger excursions in the total number of events than expected

P. Vahle, Oxford Jan A look at fluctuations Number of events in each pseudo-experiment

P. Vahle, Oxford Jan Summary of Pseudo runs No Systematics Fit MC against MC Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT 500 pseudo runs 493 converge on average Δm 2.04σ sin 2 (2θ).05σ norm.01σ Δm2Δm2 sin 2 (2θ)Norm Best Fit Values Errors Number of σ from Generated Value Preselection only

P. Vahle, Oxford Jan Investigating failures & Biases Why did fits fail at Oxford? Fixing the way of generating the fake data helped A few 10’s of fits still fail the first time Can be recovered by refitting with sin 2 (2θ)<4 7 pseudo runs do not converge now Why the bias We were cutting out runs with sin 2 (2θ)>2, these also cut out low Δm 2, biasing that distribution high Mean best fit of sin 2 (2θ) still tends to be higher than generated value, though pull function mean is close to zero

P. Vahle, Oxford Jan Summary of Pseudo runs No Systematics Fit MC against MC Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT 500 pseudo runs 487 fits converge on average Δm 2.15σ sin 2 (2θ).13σ norm.02σ Used to be: 310 fits converge Δm 2.404σ sin 2 (2θ).056σ norm.464σ Δm2Δm2 sin 2 (2θ)Norm Best Fit Values Errors Number of σ from Generated Value TV PID

P. Vahle, Oxford Jan Summary of Pseudo runs No Systematics Fit MC against MC Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT 500 pseudo runs 484 fits converge on average Δm 2.12σ sin 2 (2θ).05σ norm.01σ Δm2Δm2 sin 2 (2θ)Norm Best Fit Values Errors Number of σ from Generated Value DP PID

P. Vahle, Oxford Jan Summary of Pseudo runs No Systematics Fit MC against MC Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT 500 pseudo runs 451 fits converge on average Δm 2.11σ sin 2 (2θ).06σ norm.01σ Δm2Δm2 sin 2 (2θ)Norm Best Fit Values Errors Number of σ from Generated Value NS PID

P. Vahle, Oxford Jan Log Likelihood distribution presel TV DP NS 56 degrees of freedom

P. Vahle, Oxford Jan Systematic Studies Cross section parameter variations –increase ma_qe, ma_res and both to 50% –Kno parameters increase by 20% Intranuke –increase shower energy in both det. by 10% Relative Calibration Errors –change total reco E ν to 80%,90%,95%,105%,110% and 120% Different Flux Predictions –reweighted fake data to different fluxes, i.e. LE10, LE10 170kA, etc. POT Normalization Errors –rescaled to 90% and 110% of known POTs NC Contamination –Doubled the neutral current contamination “Unknown” differences –increased number of events in first 7 bins of ND spectrum by 10%, no change to FD spectrum –used LE10 ND REAL data to predict FD spectrum, but drew fake data from std. LE FD MC All generator uncertainties changed together All generator and intranuke All generator, intranuke and 95% miscalibration F/N ratios from hadron reweighting studies blue=new study Red=not yet redone

P. Vahle, Oxford Jan Δm 2 Summary Average best fit value of Δm 2 Number of σ away from generated value Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT nddata

P. Vahle, Oxford Jan sin 2 (2θ) Summary Average best fit value of sin 2 (2θ) Number of σ away from generated value Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT nddata

P. Vahle, Oxford Jan Normalization Summary Average best fit value of normalization Number of σ away from generated value Generated Values Δm 2 = eV 2 sin 2 (2θ)=0.9 1e20 POT nddata

P. Vahle, Oxford Jan Different delta m2’s

P. Vahle, Oxford Jan Conclusions Significantly improved since Oxford Looked into different event selection techniques Looked at the effect of sources of systematic errors on the best fit errors (using pseudoruns) –For 1e20, even large variations in many areas do not cause significant perturbation in the parameter measurement –Miscalibrations causing relative differences in total neutrino energy must be kept at the 5% level. Robust and simple procedure for measuring oscillation parameters.

P. Vahle, Oxford Jan backup