Difference between revisions of "Analysis"
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effect of the number of photoelectrons cuts on the Cerenkov distribution. We see that after using cut the number of entries decreases ~40.7% | effect of the number of photoelectrons cuts on the Cerenkov distribution. We see that after using cut the number of entries decreases ~40.7% | ||
| − | [[Image:nphe_before_cut.gif|200px | + | [[Image:nphe_before_cut.gif|200px]] [[Image:nphe_after_cut.gif|200px]]<br> |
==Pion== | ==Pion== | ||
Revision as of 22:37, 11 August 2007
EG1 run database
run summary
polarization info
Particle Identification
Electron
Cuts
Calorimeter based cuts
The distributions below represent two types of cuts applied to improve the electron particle identification (PID) using a 4 GeV electron beam incident on an NH3 target. The electron calorimeter is segmented into an inner and an outer region. The total energy absorbed by the calorimeter system is recorded in the variable . The momentum () is calculated using the reconstructed track and the known torus magnetic field. The distributions of and are shown below where both have been divided by the electron momentum and no cuts have been applied.
Without any cuts we have 181018 entries. After using the following cut we are getting 127719 entries, which is about 70.55% of 181018.
After the cut on the energy deposited into inner part of electron calorimeter, number of entries decreases by 22%.
Both cuts and
In case of using the cuts of the total deposited energy and the energy deposited into inner calorimeter number of entries decreases ~36%
summary table
Tamuna:
Change the entries to be in units of Millions of Events
I don't understand the numbers in the num trig column. Please write something here to describe the entries. You need to apply all cuts in order to predict the expected number of events.
| Beam Energy | Torus Current | Begin Run | End Run | file used | cuts | # trig() | expected # evts() | ||
|---|---|---|---|---|---|---|---|---|---|
| and | |||||||||
| 1606 | 1500 | 25488 | 25559 | dst25504_02.B00 | 64% | 49.5% | 78% | 60 | 3.2 |
| 1606 | 1946 | 25560 | 25605 | 44 | |||||
| 1606 | 1500 | 25669 | 25732 | dst25669_02.B00 | 64% | 49% | 78% | 226 | 10 |
| 1606 | 1500 | 25742 | 26221 | dst25754_02.B00 | 21% | 11% | 24% | 3154 | 13.3 |
| 1606 | -1500 | 26222 | 26359 | dst26224_02.B00 | 4.6% | 3% | 6.6% | 703 | 13.1 |
| 1724 | -1500 | 27644 | 27798 | dst27649_02.B00 | 4.8% | 2.2% | 5.9% | 211 | 20 |
| 1724 | 1500 | 28512 | 28526 | 159 | |||||
| 1724 | -1500 | 28527 | 28532 | 93 | |||||
| 2288 | 1500 | 27205 | 27351 | dst27225_02.B00 | 20.2% | 13% | 25.6% | 1647 | 16.1 |
| 2562 | -1500 | 27799 | 27924 | dst27809_02.B00 | 5.7% | 4.6% | 8.6% | 1441 | 13.1 |
| 2562 | -1500 | 27942 | 27995 | dst27942_02.B00 | 6.1% | 4.4% | 8.9% | 841 | 32.3 |
| 2562 | 1500 | 28001 | 28069 | dst28002_02.B00 | 27.8% | 13% | 29.6% | 1013 | 30.7 |
| 2792 | -1500 | 27936 | 27941 | dst27937_02.B00 | 6.7% | 5% | 9.9% | 69 | 20.6 |
| 3210 | -2250 | 28549 | 28570 | 436 | |||||
| 4239 | 2250 | 28074 | 28277 | dst28075_02.B00 | 35.3% | 23.9% | 40.5% | 2278 | 19.6 |
| 4239 | -2250 | 28280 | 28479 | dst28281_02.B00 | 9.1% | 9.4% | 13.6% | 2620 | 15.2 |
| 4239 | 2250 | 28482 | 28494 | 7 | |||||
| 4239 | -2250 | 28500 | 28505 | 107 | |||||
| 4239 | 2250 | 28506 | 28510 | dst28509_02.B00 | 29.5% | 22% | 36% | 75 | 18.1 |
| 5627 | 2250 | 27356 | 27364 | dst27358_02.B00 | 33.2% | 27.8% | 41.3% | 56 | 19.4 |
| 5627 | -2250 | 27366 | 27380 | dst27368_02.B00 | 12.6% | 14.8% | 19.5% | 130 | 13.6 |
| 5627 | 2250 | 27386 | 27499 | dst27388_02.B00 | 33.4% | 27.8% | 41.4% | 1210 | 20.2 |
| 5627 | 965 | 27502 | 27617 | 493 | |||||
| 5735 | -2250 | 26874 | 27068 | dst26904_02.B00 | 13% | 15% | 20% | 1709 | 19.9 |
| 5735 | 2250 | 27069 | 27198 | dst27070_02.B00 | 33.3% | 28.8% | 42.2% | 1509 | 15 |
| 5764 | -2250 | 26468 | 26722 | dst26489_02.B00 | 12.2% | 14.4% | 19.1% | 1189 | 10 |
| 5764 | 0 | 26723 | 26775 | 268 | |||||
| 5764 | -2250 | 26776 | 26851 | dst26779_02.B00 | 13.5% | 15.5% | 20.5% | 662 | 15.9 |
Cut on the number of photoelectrons
In this case is used a cut on the number of photoelectrons, which is . The plots below show the effect of the number of photoelectrons cuts on the Cerenkov distribution. We see that after using cut the number of entries decreases ~40.7%
