- Reports
from those who looked at the bins (thanks!):
pT \ p 1-2 3-6 10-15 20-30 30-50 0.0-0.2 Ferenc Claudia Gábor Dezsõ Ferenc 0.3-0.5 Ferenc Ferenc Dániel
pos negFerenc Dezsõ 0.7-0.9 Ferenc Dániel
pos negFerenc Dezsõ Dániel
pos neg1.1-1.3 Claudia Ferenc Dezsõ Dániel
pos negHans-Gerhard 1.5-2.0 Ferenc Dezsõ Hans-Gerhard Dániel
pos negHans-Gerhard
- Summary
- bad iflag!=0 tracks [positives/negatives %]
pT \ p 1-2 3-6 10-15 20-30 30-50 0.0-0.2 11/6 11/9 11/11 36/7 47/ 0.3-0.5 11/15 8/7 13/1 21/3 47/19 0.7-0.9 34/41 5/ 17/21 22/21 29/ 1.1-1.3 92/100 33/44 32/20 15/15 36/21 1.5-2.0 100/100 57/84 47/73 56/56
- good split tracks [positives/negatives %]
pT \ p 1-2 3-6 10-15 20-30 30-50 0.0-0.2 1/0 4/3 1/1 2/2 7/9 0.3-0.5 5/3 5/4 1/6 3/5 0/1 0.7-0.9 15/9 1/ 4/7 2/8 2/ 1.1-1.3 - often 10/5 2/7 2/10 1.5-2.0 - 1/1 2/0 -
- Impact parameters:
They must not be used for cuts.- Split tracks:
This is the major problem that has to be cured first.- Iflags:
Tracks with iflag!=0 should be rejected.- Potential points:
They should be used to select good tracks. In order not to lose particles that decay later, a/p=(x%,0%,0%) or (x%,x%,0%) should be accepted. The potential points calculation seems to use the global rtrack trajectory: it should be calculated for the global track fitted with vertex constraint. The calculation has problems at the corners of VTPCs and the top/bottom plane of the TPCs: try to get this or even the geometrical acceptance from data.- Lost points:
Points are lost overall, regardless of momentum. They should be attached to the track allowing better dE/dx performance.- 'Spirals' in vt1:
Some low momentum vt1 track are treated as spirals. In there case it is normal that they change z direction, so one should recover them, because - among others - they are important for sharper CD definition and the backward acceptance can as well be enlarged.