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Photon Source and Tagger Richard Jones, University of Connecticut GlueX Detector ReviewOctober 20-22, 2004, Newport News presented by GlueX Tagged Beam.

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Presentation on theme: "Photon Source and Tagger Richard Jones, University of Connecticut GlueX Detector ReviewOctober 20-22, 2004, Newport News presented by GlueX Tagged Beam."— Presentation transcript:

1 Photon Source and Tagger Richard Jones, University of Connecticut GlueX Detector ReviewOctober 20-22, 2004, Newport News presented by GlueX Tagged Beam Working Group University of Glasgow University of Connecticut Catholic University of America

2 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 2 Photon Beam: coherent bremsstrahlung Criteria Criteria  high energy 8-9 GeV  linear polarization 0.5  high flux 10 8 s -1  energy resolution 10 MeV r.m.s.  low background Design options Design options A.laser backscatter B.synchrotron backscatter C.bremsstrahlung D.coherent bremsstrahlung energy     polarization     flux     resolution (  ) (  ) (  ) (  ) background    ABC (  ) with tagging D “figure of merit” = (rate in 8-9 GeV window) * (polarization) 2 @ constant b.g.

3 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 3 Photon Beam: energy spectrum effects of collimation at 80 m distance from radiator incoherent (black) and coherent (red) kinematics effects of collimation: reduce low-energy background and increase polarization

4 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 4 Photon Beam: collimation a < 20 mr s 0 < 1/3 c d > 70 m With increased collimator distance:  polarization grows  low-energy backgrounds shrink  tagging efficiency drops off

5 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 5 Photon Beam: collimation linear polarization effects of collimation on polarization spectrum collimator distance = 80 m peak polarization vs. electron energy 5 effects of collimation on figure of merit: rate (8-9 GeV) * p 2 @ fixed hadronic rate

6 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 6 Electron Beam: properties energy12 GeV r.m.s. energy spread7 MeV transverse x emittance10 mm µr transverse y emittance2.5 mm µr electron polarizationavailable minimum current100 pA maximum current5 µA x spot size at radiator1.6 mm r.m.s. y spot size at radiator0.6 mm r.m.s. x spot size at collimator0.5 mm r.m.s. y spot size at collimator0.5 mm r.m.s. position stability±200 µm

7 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 7 Diamond crystal: properties limits on thickness from multiple-scatteringrocking curve from X-ray scattering natural fwhm

8 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 8 Diamond crystal: goniometer mount temperature profile of crystal at full operating intensity oCoC

9 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 9 Tagging spectrometer Requirements Requirements  spectrum coverage 25% -- 95% in 0.5% steps 70% -- 75% in 0.1% steps  energy resolution 10 MeV r.m.s.  rate capability up to 400 MHz per GeV

10 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 10 Tagging spectrometer: two dipole design radiator quadrupole dipole 1 dipole 2 photon beam full-energy electrons focal plane  final bend angle:13.4 o  dipole magnetic field:1.5 T  focal plane length:9.0 m  energy resolution:< 10 MeV r.m.s.  gap width:3 cm  pole length:3.1 m  dipole weight:38 tons  coil power:30 kW

11 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 11 Tagger focal plane: fixed array  141 counters, each subtending 60 MeV (0.5% E 0 )  plastic scintillator paddles oriented perpendicular to rays  designed for minimal overlap  conventional phototube readout  essential for diamond crystal alignment  useful as a monitor of photon beam  cannot run in counting mode at full source intensity

12 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 12 Tagger focal plane: microscope focal plane electron trajectory SiPM sensors scintillating fibers clear light fibers Design parameters Design parameters  square scintillating fibers  size 1 mm x 1 mm x 20 mm  clear light guide readout  aligned along electron direction  exploits the maximum energy resolution of the spectrometer SiPM devices  readout with silicon photomultipliers (SiPM devices)  dispersion is 1.4 mm / 0.1% at 9 GeV  2D readout to improve tagging efficiency

13 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 13 Beam line: active collimator 12 cm x (mm) y (mm) current asymmetry vs. beam offset  Monte Carlo simulation 20% 40% 60%

14 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 14 Beam line: polarimetry Design parameters Design parameters  measures azimuthal plane of e + e - pair production  pair spectrometer allows selection of symmetric pairs  typical opening angle of pairs is of order 100 mr  requires 1-2 m of flight path inside vacuum from target to microstrip tracker  pair spectrometer gap downstream of tracker planes  scintillators detect pairs from spectrometer, provide trigger analysing power = 25 %

15 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 15 Beam line: shielding overhead view of collimator cave cut through horizontal plane at beam height collimators sweep magnets iron blocks concrete lead 12 m air vac

16 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 16 Beam line: physics simulation GEANT-based Monte Carlo GEANT-based Monte Carlo  based on a coherent bremsstrahlung generator  good description of electromagnetic processes  extended to include hadronic photoproduction processes  complete description of beam line including collimator and shielding  integrated with detector sim. 1.g,N scattering 2.g,A single nucleon knockout 3.g,p pion photoproduction

17 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 17 Beam line: rates and background peak energy 8 GeV 9 GeV 10 GeV 11 GeV N  in peak 185 M/s 100 M/s 45 M/s 15 M/s peak polarization 0.54 0.41 0.27 0.11 (f.w.h.m.) (1140 MeV)(900 MeV)(600 MeV)(240 MeV) peak tagging eff. 0.55 0.50 0.45 0.29 (f.w.h.m.) (720 MeV)(600 MeV)(420 MeV)(300 MeV) total hadronic rate 385 K/s 365 K/s 350 K/s 345 K/s (in tagged peak) ( 26 K/s) (14 K/s) (6.3 K/s) (2.1 K/s) 1.Total hadronic rate is dominated by the resonance region 2.For a given electron beam and collimator, background is almost independent of coherent peak energy, comes mostly from incoherent part.

18 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 18 Photon Beam: coherent gain factor gain increases with electron beam energygain vanishes at the end-point

19 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 19 Photon Beam: polarization circular polarization  transfer from electron beam  reaches 100% at end-point linear polarization  determined by crystal orientation  vanishes at end-point

20 Richard Jones, GlueX Detector Review, Newport News, October 20-22, 2004 20 Tagging spectrometer: optics design


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