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Comparing version 1 with version 9
| Version: 1 |
Version: 9 (current) |
| riordan - Thu 17 of Aug, 2006 [19:50 UTC] |
feuerbac - Mon 18 of Dec, 2006 [21:13 UTC] |
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change category to just GEn::BigBite |
- The BigBite spectrometer is a large momentum and angular acceptance, non-focusing spectrometer consisting of a large dipole magnet (maximum field of 1.2T) and detector set. These detectors consist of three multiple wire drift chambers, a scintillator plane, and two lead-glass calorimeters. The original spectrometer was acquired by Jefferson Lab from NIKEF and the detector package was replaced for use in the Hall A GEn experiment.
+ The BigBite spectrometer is a large momentum and angular acceptance, non-focusing spectrometer consisting of a large dipole magnet (maximum field of 1.2T) and detector set. These detectors consist of three ((BigBite Drift Chambers|multiple wire drift chambers)), a scintillator plane, and two lead-glass calorimeters. The original spectrometer was acquired by Jefferson Lab from NIKEF and the detector package was replaced for use in the Hall A GEn experiment.
- The current configuration allows for solid angle acceptance of nominally 75msr and momentum resolution of approximately 1~2% sigma. The tracking code works mainly with the wire hits in the MWDCs, using the rest of the detector set to give hints on eliminating noise in the system. Noise becomes a significant />factor in doing tracking as the noise to signal ratio for a production environment has been observed to be on the order of 10. This presents a significant challenge to perform efficient and fast tracking.
+ The current configuration allows for solid angle acceptance of nominally 75msr and momentum resolution of approximately 1~2% sigma. The tracking code works mainly with the wire hits in the ((BigBite Drift Chambers|MWDCs)), using the rest of the detector set to give hints on eliminating noise in the system. Noise becomes a significant factor in doing tracking as the noise to signal ratio for a production environment has been observed to be on the order of 10. This presents a significant challenge to perform efficient and fast tracking.
{img src=http://hallaweb.jlab.org/experiment/E02-013/offline/bigbiteschem.jpg height=300 align=left desc="BigBite Spectrometer" link=http://hallaweb.jlab.org/experiment/E02-013/offline/bigbiteschem.jpg }
See Also:
((BigBite Tracking and Drift Chamber Global Variables))
((BigBite Analysis Scripts))
((BigBite Databases))
((BigBite Geometry and Survey))
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