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1 Occupancy, Rate Effects & Combinatorial Background By Rusty Towell January 8, 2009.

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Presentation on theme: "1 Occupancy, Rate Effects & Combinatorial Background By Rusty Towell January 8, 2009."— Presentation transcript:

1 1 Occupancy, Rate Effects & Combinatorial Background By Rusty Towell January 8, 2009

2 2 Example of Rate Dependence in the E866 low mass data

3 3 Partial list of rate studies … Functional form of the rate dependence. –Linear with beam intensity. Kinematical dependence of the rate dependence (pT, X2, Xf, mass). –none Study of rate dependence in both data and MC of J/ , Drell-Yan, and  events. –consistent Occupancy

4 4 Affects event reconstruction (track bank overflow), but if the event reconstructed it had little other impact. –Ntuple cut (12*nhodfir+nevlen < 1400) Was carefully studied in the data and reproduced in the MC to study the rate dependence. Details included: –2-d distribution of noise hits in detectors –correlations between planes in a station –correlations between stations –multiplicity –detector efficiency Conclusion of this study showed Rate dependence was effected most by hits in station 3 > station 2 > station 1 (~ 4:2:1)

5 5 Rate Dependence Correction Each data set fit with a linear function. Hydrogen slope related to deuterium slope based on occupancy studies. (F = Rd/Rh) LD2 events weighted by:

6 6 Final Rate Corrections

7 7 Systematic Uncertainties from 866 “Total systematic uncertainty is < 1%”

8 8 Gas analyses from 866

9 9 Combinatorial Background a.k.a. Randoms To correct for these, requires 2 special triggers: –Single muons –Like sign muon pairs Singles are analyzed just like individual tracks in a good dimuon event and then combined to form randoms. The randoms are compared with the like sign muon events to ensure proper kinematics and normalized before they are subtracted from good events. For E866 much of this work was done by Maxim from Texas A&M. Randoms corrections for ‘low mass’ data set was about 4.4% with some data points about twice that.

10 10 Suggestions Use equal interactions length targets with their average interaction points aligned. Take more data. Consider special ‘high’ and ‘low’ luminosity runs??? Take equal amounts of events on both targets (ld2 and lh2) not equal luminosity?

11 11 Resources Rate notes: –http://p25ext.lanl.gov/e866/protect/udhi/rate.pshttp://p25ext.lanl.gov/e866/protect/udhi/rate.ps –http://p25ext.lanl.gov/e866/protect/udhi/gtg.pshttp://p25ext.lanl.gov/e866/protect/udhi/gtg.ps –http://p25ext.lanl.gov/e866/protect/ud/f.pshttp://p25ext.lanl.gov/e866/protect/ud/f.ps My dissertation –http://p25ext.lanl.gov/e866/protect/thesis/thesis.htmlhttp://p25ext.lanl.gov/e866/protect/thesis/thesis.html

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