1 / 10

4-string stage (1996)

4-string stage (1996). Event reconstruction in the Baikal experiment. I. Belolaptikov belolap@nu.jinr.ru ( Baikal collaboration ). AGENDA. Hit classification criterion. Events classification criteria. Reconstruction (fitting) Quality cuts. Post analysis and outlook.

vahe
Download Presentation

4-string stage (1996)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 4-string stage (1996) Event reconstruction in the Baikal experiment I. Belolaptikovbelolap@nu.jinr.ru (Baikal collaboration)

  2. AGENDA • Hit classification criterion. • Events classification criteria. • Reconstruction (fitting) • Quality cuts. • Post analysis and outlook.

  3. Conditions of reconstruction • Scattering length(~30-40m) > absorption length (~20m) • Time response for muon reconstruction is close to single muon. • Muon track length > geometrical size of array.

  4. Hit classification - apply it for each pair in response Find channels with the number of violations >1 BUT: Still can be pairs which have wrong causality For each pair on the same string. If • There is at least 1 channel violating single muon model in time

  5. PA,q(R) Ti, Ai zij=Tj-Ti-DTmin(Lij,Ai,Aj)+d>0 S= min{zij}; Lij Tj, Aj R1 R2 R Event classification Aim: Find a parameter(s) which are sensitive to muon bundles and showers. Compare MC and experiment over this parameter. All events Nmu=1 S, nsec

  6. Multiplicity distribution of registrated muons for events with S<-0 Distribution over shower energy for events with S<-0 and Nm=1

  7. Quality cuts. • phit*pnonhit + • Amplitude correlation • Track length in array response • Amplitude Chi2 • Chi2_sh/Chi2_mu

  8. Neutrino selection cuts: • Zenith angle > 90 • Time-Z correlation • Nchan >6 RESULTS: (median) – for upward going events ≈ 3o Survival rate with respect to trigger 6/3 for neutrino events ≈20 % at S/N ≈ 10 (90% CL)

  9. Test of shower energy reconstruction with laser s(lgA)<0.1

  10. Postanalysis and outlook • Use all pairs to define “allowed” region in θ,φ to try tofind another track parameters. • Increase a selectivity of thehit analysis. • In case of finding hits out of single muon model, use a modelwith shower(s). μ(φ,θ,x,y,t0) l

More Related