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2007.09.12 Endcap Electrons
Updated on Fri, 2010-07-16 11:08. Originally created by seluzhen on 2010-07-16 10:37.
Under:
Pibero Djawotho Last updated Wed Sep 12 08:29:53 EDT 2007
Endcap Electrons
This analysis is based on the work of Jan and Justin on SMD Profile Analysis for different TPC momenta. See here for a list of cuts. The original code used by Jan and Justin is here.
- Transverse running
- Analysis uses 64 out of 300 runs from 2006 pp transverse run
- MuDst are located at:
/star/institutions/iucf/balewski/prodOfficial06_muDst/
- No trigger selection
- Click here for SMD profiles of transverse electron candidates.
- Click here for ROOT file with transverse electrons ntuple.
- Longitudinal running
- MuDst are located at:
/star/institutions/iucf/hew/2006ppLongRuns/
- Click here for SMD profiles of longitudinal electron candidates.
- Click here for ROOT file with longitudinal electrons ntuple.
- Code
-
f(x)=p0*(0.69*exp(-0.5*((x-p1)/0.87)**2)/(sqrt(2*pi)*0.87)+0.31*exp(-0.5*((x-p1)/3.3)**2)/(sqrt(2*pi)*3.3))
-
p0 = yield
-
p1 = centroid
Figure 1: Number of tracks surviving each successive cut
Figure 2a: Number of tracks per trigger id for all electron candidates. Most common trigger ids are:
127652
eemc-jp0-etot-mb-L2jet
EEMC JP > th0 (32, 4 GeV) and ETOT > TH (109, 14 GeV), minbias condition, L2 Jet algorithm, reading out slow detectors, transverse running
127271
eemc-jp1-mb
EEMC JP > th1 (49, 8 GeV) && mb, reading out slow detectors, transverse running
127641
eemc-http-mb-l2gamma
EEMC HT > th1 (12, 2.6 GeV, run < 7100052;13, 2.8 GeV, run >=7100052) and TP > TH1 (17, 3.8 GeV, run < 710052; 21, 4.7 GeV, run>=7100052 ), minbias condition, L2 Gamma algorithm, reading out slow detectors, L2 thresholds at 3.4, 5.4, transverse running
127622
bemc-jp0-etot-mb-L2jet
BEMC JP > th0 (42, 4 GeV) and ETOT > TH (109, 14 GeV), minbias condition, L2 Jet algorithm, reading out slow detectors, transverse running; L2jet thresholds at 8.0,3.6,3.3
Figure 2b: Number of tracks per trigger id for all electron candidates for pT > 4 GeV. The dominant trigger ids become:
| 127641 | eemc-http-mb-l2gamma | EEMC HT > th1 (12, 2.6 GeV, run < 7100052;13, 2.8 GeV, run >=7100052) and TP > TH1 (17, 3.8 GeV, run < 710052; 21, 4.7 GeV, run>=7100052 ), minbias condition, L2 Gamma algorithm, reading out slow detectors, L2 thresholds at 3.4, 5.4, transverse running |
| 127262 | eemc-ht2-mb-emul | EEMC HT > th2 (22, 5.0 GeV) && mb, reading out slow detectors, emulated in L2, transverse running, different threshold from 117262 |
| 127271 | eemc-jp1-mb | EEMC JP > th1 (49, 8 GeV) && mb, reading out slow detectors, transverse running |
| 127652 | eemc-jp0-etot-mb-L2jet | EEMC JP > th0 (32, 4 GeV) and ETOT > TH (109, 14 GeV), minbias condition, L2 Jet algorithm, reading out slow detectors, transverse running |
Figure 3: pT distribution of tracks before E/p, dE/dx and pT cut
Figure 4: pT distribution of electron candidates with pT > 4 GeV
Figure 5: η distribution of electron candidates (all pT)
Figure 6: φ distribution of electron candidates (all pT)
Figure 7: dE/dx of tracks before E/p and dE/dx cuts (all pT)
Figure 8: dE/dx of tracks before E/p and dE/dx cuts (pT > 4 GeV)
Figure 9: dE/dx of tracks before E/p and dE/dx cuts (all pT and 0.8 < η < 1.0)
Figure 10: dE/dx of tracks before E/p and dE/dx cuts (all pT and 1.0 < η < 1.2)
Figure 11: dE/dx of tracks before E/p and dE/dx cuts (all pT and 1.2 < η < 1.4)
Figure 12: dE/dx of tracks before E/p and dE/dx cuts (all pT and 1.4 < η < 1.6)
Figure 13: dE/dx of tracks before E/p and dE/dx cuts (all pT and 1.6 < η < 1.8)
Figure 14: dE/dx of tracks before E/p and dE/dx cuts (all pT and 1.8 < η < 2.0)
Figure 2.1
Figure 2.2: The dominant trigger ids are:
| 137273 | eemc-jp1-mb | EEMC JP > th1 (52, 8.7 GeV) && mb, reading out slow detectors, longitudinal running 2 |
| 137641 | eemc-http-mb-l2gamma | EEMC HT > th1 (16, 3.5 GeV) and TP > th1 (20, 4.5 GeV), minbias condition, L2 Gamma algorithm, reading out slow detectors, L2 thresholds at 3.7, 5.2, longitudinal running 2 |
| 137262 | eemc-ht2-mb-emul | EEMC HT > th2 (22, 5.0 GeV) && mb, reading out slow detectors, emulated in L2, longitudinal running 2 |
| 137222 | bemc-jp1-mb | BEMC JP > th1 (60, 8.3 GeV) && mb, reading out slow detectors, longitudinal running 2 |
Figure 2.3a
Figure 2.3
Figure 2.4
Figure 2.5
Figure 2.6
Figure 2.7
Figure 2.8
Figure 2.9
Figure 2.10
Click here for a tarball of the code used in this analysis.
SMD response function
Transverse
21 electrons
Longitudinal
99 electrons
Pibero Djawotho Last updated Wed Sep 12 08:29:53 EDT 2007
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