Difference between revisions of "CLAS apparatus"
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=Scintillators= | =Scintillators= | ||
− | The CEBAF Large Acceptance Spectrometer (CLAS) is equipped with 288 scintillator counters with photomultiplier tube on each side. The purpose of the scintillator is to determine the time of flight for the charged particles and to trigger it in coincidence with another detector system for the particle identification. The time of flight system is built so that time resolution at small polar angles <math> | + | The CEBAF Large Acceptance Spectrometer (CLAS) is equipped with 288 scintillator counters with photomultiplier tube on each side. The purpose of the scintillator is to determine the time of flight for the charged particles and to trigger it in coincidence with another detector system for the particle identification. The time of flight system is built so that time resolution at small polar angles <math>\sigma =120</math>ps it can separate pions and kaons up to 2 GeV/c. In terms of time resolution |
=Cherenkov detector= | =Cherenkov detector= |
Revision as of 05:25, 15 August 2007
Apparatus
Target
The target materials used in the EG1b experiments were
To prepare the target material, ammonia gas was frozen at 77 K and then crushed into little
pieces, about 1-3 mm in diameter. In the case of deuterated ammonia was used. The target are kept in solid form during the experiment by liquid helium.
Tracking System
Scintillators
The CEBAF Large Acceptance Spectrometer (CLAS) is equipped with 288 scintillator counters with photomultiplier tube on each side. The purpose of the scintillator is to determine the time of flight for the charged particles and to trigger it in coincidence with another detector system for the particle identification. The time of flight system is built so that time resolution at small polar angles
ps it can separate pions and kaons up to 2 GeV/c. In terms of time resolutionCherenkov detector
The CLAS Cherenkov detector is a threshold gas counter filled with perfluorobutane
As a light collector were used the system of mirrors , the light collecting cones and photomultiplier tubes(PMTs). In the extreme regions of the angular acceptance of the spectrometer the number of detected photoelectrons is too low. To get acceptable efficiency of the detector in these regions were placed photomultiplier tubes.
The charged particle trajectories are in planes of almost constant azimuthal angle, because of the toroidal configuration of the magnetic field. Under this conditions, the light collection can be designed to focus the light in the azimuthal angle direction. However, the polar angle is constant. Each of the six sectors was divided into 18 regions of the polar angle
The optical elements of each
The photomultiplier tubes were surrounded with high permeability magnetic fields,because they were located in the fringe field region of the spectrometer(??????).
Below is shown the scheme of CLAS detector