Difference between revisions of "PS instrumentation studies"
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Contribution to the position/energy resolution from multiple scattering. | Contribution to the position/energy resolution from multiple scattering. | ||
The converter is placed 1 m in front of the magnet. B = 1 T. | The converter is placed 1 m in front of the magnet. B = 1 T. | ||
| + | |||
| + | (the energy resolution of the scintillator counters corresponding to the default design is | ||
| + | 12 MeV for 24 counters and 17 MeV for 8 counters). | ||
[[Image:ps_mult_scat.jpg |350px]] | [[Image:ps_mult_scat.jpg |350px]] | ||
Revision as of 09:42, 3 May 2010
- Decided what magnet to use: 2 m long 30D72 magnet with the maximum field of 2 T.
- The vaccum chamber design has to be optimized. Current chamber length 1.5 m.
- Consider symmetric detectors covering the energy range from 3 GeV to 6 GeV.
Detector width (position from the beamline) as a function of the magnetic field:
Contribution to the position/energy resolution from multiple scattering. The converter is placed 1 m in front of the magnet. B = 1 T.
(the energy resolution of the scintillator counters corresponding to the default design is 12 MeV for 24 counters and 17 MeV for 8 counters).
