Difference between revisions of "Photon Beam Design Requirements"
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== Photon Beam Subsystems == | == Photon Beam Subsystems == | ||
− | # 12 GeV electron beam and associated instrumentation | + | # [[12 GeV electron beam and associated instrumentation]] |
− | # diamond crystal radiator | + | # [[diamond crystal radiator]] |
− | # goniometer mount for radiators | + | # [[goniometer mount for radiators]] |
− | # active photon collimator system | + | # [[active photon collimator system]] |
− | # tagging magnetic spectrometer | + | # [[tagging magnetic spectrometer]] |
− | # high-resolution tagging microscope | + | # [[high-resolution tagging microscope]] |
− | # broad-band tagging hodoscope | + | # [[broad-band tagging hodoscope]] |
− | # total absorption counter | + | # [[total absorption counter]] |
− | # pair spectrometer and target | + | # [[pair spectrometer and target]] |
− | # pair spectrometer hodoscopes | + | # [[pair spectrometer hodoscopes]] |
− | # post-collimator beamline and shielding | + | # [[post-collimator beamline and shielding]] |
Revision as of 18:18, 29 January 2008
Global Specifications for the Hall D Photon Beam
The following top-level specifications for the Hall D photon beam are determined by the physics requirements of the GlueX experiment and the anticipated capabilities of the CEBAF accelerator at 12 GeV. The specifications for Hall D beamline components and related instrumentation are derived, in turn, from these. References added to the end of each item in the list below indicate which subsystem is affected.
- choice of photon energy in the range 8 - 12 GeV [1]
- duty factor >90% at 500 MHz beam pulse repetition rate [1]
- orientable diamond crystal bremsstrahlung radiator [2,3]
- peak linear polarization of 40% at 9 GeV with collimation [2,3,4]
- average polarization 36% in coherent peak 8.4 - 9.0 GeV [2,3,4]
- photon beam collimator with half-angle 22 μr [4]
- photon beam centered on collimator to within 3 μr [1,4]
- photons tagged with energy resolution better than 60 MeV (0.5%) within coherent peak [1,5,6]
- beam tagged with reduced resolution over extended range 3.0 - 11.4 GeV [5,7]
- complete tagger coverage in range 9.0 - 11.4 GeV with 1% resolution [5,7]
- nominal operation at 10 MHz tagged photons in coherent peak after collimator [1,6]
- tagging rate 25 MHz within coherent peak at nominal intensity [6]
- tagger capable of operating above nominal intensity, up to 100 MHz in coherent peak after collimator [1,5,6]
- beam adjustable down to threshold of 10-4 nominal intensity for absolute normalization measurements [1,8]
- average tagging efficiency at least 50% within coherent peak under nominal conditions, 70% for higher intensity running [1,5,6]
- continuous real-time monitoring of post-collimator beam spectrum [9,10]
- average polarization within coherent peak determined with accuracy ±2% absolute [9,10]
- absolute tagged photon energy calibration better than ±30 MeV [9,10]
- post-collimated beam shielding sufficient to keep detector backgrounds originating outside the experimental target below 1% of those coming from the target seen by all detectors, for each significant particle species considered separately [11]
Photon Beam Subsystems
- 12 GeV electron beam and associated instrumentation
- diamond crystal radiator
- goniometer mount for radiators
- active photon collimator system
- tagging magnetic spectrometer
- high-resolution tagging microscope
- broad-band tagging hodoscope
- total absorption counter
- pair spectrometer and target
- pair spectrometer hodoscopes
- post-collimator beamline and shielding