Developing #416
Analyzing #397: Variation of the parameters
BeamDet thickness
| Status: | Открыта | Start date: | 01/17/2020 | |
|---|---|---|---|---|
| Priority: | Нормальный | Due date: | ||
| Assignee: | Ivan Muzalevsky | % Done: | 100% | |
| Category: | - | |||
| Target version: | - |
Description
Vary the BeamDet thickness within a reasonable range and report the effect on position of the peak corresponding to population of the 9Li g.s..
History
#1 Updated by Ivan Muzalevsky almost 5 years ago
- Description updated (diff)
#2 Updated by Ivan Muzalevsky almost 5 years ago
- Description updated (diff)
- % Done changed from 0 to 100
#3 Updated by Ivan Muzalevsky almost 5 years ago
Using the results of the issue 415, transformation of the beam det volumes into the Si equivalent (630 micron) was made. It turned out similar to the 644 micron provided by M.Golovkov and S.Krupko
But if one considers that the beam detector includes only half of the second ToF volume (117.5 micron of scincillator and 3.5 micron of mylar), the effective beamDet thickness in Si equivalent is approximately 555 micron
#4 Updated by Ivan Muzalevsky almost 5 years ago
- File be10_beamEnergy.lpp added
#5 Updated by Ivan Muzalevsky over 4 years ago
Vary the BeamDet thickness within a reasonable range and report the effect on position of the peak corresponding to population of the 9Li g.s..
| BeamDet thickness [Silicon microns] | 9Li g.s. position 1 Tel [MeV] |
9Li g.s. position 2 Tel [MeV] |
9Li g.s. position 3 Tel [MeV] |
9Li g.s. position 4 Tel [MeV] |
Average 9Li g.s. |
| 644 | -0.105 | 0.372 | 0.098 | 0.162 | 0.12 |
| 630 | -0.118 | 0.359 | 0.085 | 0.149 | 0.107 |
| 570 | -0.174 | 0.303 | 0.032 | 0.095 | 0.051 |
| 555 | -0.188 | 0.289 | 0.018 | 0.081 | 0.037 |
| 510 | -0.230 | 0.247 | -0.024 | 0.059 | -0.005 |
| 450 | -0.287 | 0.19 | -0.081 | 0.002 | -0.062 |
#6 Updated by Ivan Muzalevsky over 4 years ago
- Description updated (diff)