Integration of Forward Detectors, ZDC, and CASTOR into CMS Experiments Kevin Reynolds Michael Murray, Mentor 2006 Michigan REU at CERN
Integration of Forward Detectors, ZDC, and CASTOR into CMS Experiments
Jan 03, 2016
Integration of Forward Detectors, ZDC, and CASTOR into CMS Experiments. Kevin Reynolds Michael Murray, Mentor 2006 Michigan REU at CERN. Primary Goals for This Project. Assist in the integration of forward detectors, ZDC, and CASTOR into CMS experiment - PowerPoint PPT Presentation
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Integration of Forward Detectors, ZDC, and CASTOR into CMS
Experiments
Kevin Reynolds
Michael Murray, Mentor
2006 Michigan REU at CERN
Primary Goals for This ProjectPrimary Goals for This Project
• Assist in the integration of forward detectors, ZDC, and CASTOR into CMS experiment
• Work on layout of electronics for ZDC and modification of existing CMS HF electronics to produce technical triggers
for CMS global trigger
• Assist with beam tests of ZDC and CASTOR and the analysis of the test beam data
Integration of the Zero Degree Integration of the Zero Degree CalorimeterCalorimeter
• The main components for the detector should be received at CERN by mid July 2006
• Beam tests begin the first week of August 2006
2
ZDC2INTERACTION
POINT
ZDC1
Preparation for Beam TestsPreparation for Beam Tests• The upper part of the beamline sensitive to Cherenkov raditation was disassembled and
the lens checked for contaminants. The photomultipler tube was then reassembled, vacuumed down, and refilled with freon gas. The pressure for the tube held over night, a good indication that the chamber was hermetically sealed. (6-28-06)
BeamlineWire Chambers
ScintillatorsCherenkov
detector
6
Electronic LayoutElectronic Layout
• Before the parts for the ZDC are received in July for installation, system checks are being made with the wire chambers and scintillators at the test area.
8
• Cherenkov radiation is emitted when high-energy particles travel faster than light in certain mediums other than vaccum. Atoms in the medium become excited and give off their energy with short fluorescent decay. The radiation is emitted in a narrow cone, similar to a sonic boom in air. In our experiments, a mirror collects the radiation which usually is emitted in blue to near ultraviolet (300-425 nm). The shift of wavelength is known as the Stokes-shift. The Cherenkov light is emitted under a constant angle given by cos θ = vt / v = c/ (vn) = 1/ (βn).
Cherenkov RadiationCherenkov Radiation
Cherenkov Radiation Sonic Boom 7
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