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Radiation damage at LHCb, results and expectations
The LHCb Detector is a single-arm spectrometer at the LHC designed to detect new physics through measuring CP violation and rare decays of heavy flavor mesons. The detector consists of vertex detector, tracking system, dipole magnet, 2 RICH detectors, em. calorimeter, hadron calorimeter, muon detect...
Autor principal: | |
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Lenguaje: | eng |
Publicado: |
2011
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Acceso en línea: | http://cds.cern.ch/record/1370493 |
Sumario: | The LHCb Detector is a single-arm spectrometer at the LHC designed to detect new physics through measuring CP violation and rare decays of heavy flavor mesons. The detector consists of vertex detector, tracking system, dipole magnet, 2 RICH detectors, em. calorimeter, hadron calorimeter, muon detector which all use different technologies and suffer differently from radiation damage. These radiation damage results and the investigation methods will be shown. The delivered luminosity till July 2011 was about 450 pb−1. The Vertex detector receives the highest particle flux at LHCb. The currents drawn by the silicon sensors are, as expected, increasing proportional to the integrated luminosity. The highest irradiaton regions of the n-bulk silicon sensors are observed to have recently undergone space charge sign inversion. The Silicon Trackers show increasing leakage currents comparable with earlier predictions. The electromagentic calorimeter and hadron calorimeter suffer under percent-level signal decrease which is monitored to achieve a 1% precision in the energy calibration. The Outer Tracker observes no beam induced radiation damage so far. The RICH detectors see no significant irradiation effects as expected. To investigate irradiation effects in a muon system additional monitoring tools are in development, with current tools no radiation damages have been detected. |
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