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Purpose

the DIRC provides

  • a positive kaon identification
  • a destinction of gammas and relativistic charged particles entering the EMC behind him

Working principle

  • Cherenkov Detector
  • determination of the mass of the particle by combining his velocity information with momentum information from the tracking detectors

Important values

  • Polar angle vs. momentum distribution of the kaons in radiative decays of resonances in formation experiments like J/psi -> K+K- gamma for the search of glue-balls (Ref. TPR):

Polar angle vs. momentum distribution of the kaons in radiative decays of resonances in formation experiments like J/psi -> K+K- gamma for the search of glue-balls.

  • the barrel DIRC covers the solid angle of 22 to 140 degrees
  • the lower momentum threshold for kaons which produce Cherenkov light is for an envisaged refractive index of n=1.47 as low as 460 MeV/c (for single photon producton -- for photon numbers bigger than 4 it is more than 200 MeV/c higher)

FIRST Estimations:

  • Single Photon Cherenkov Angle Resolution

  • with a DIRC-Bar size of 17x30x2000mm, a distance of l=1.20m of the photomultipiers from the bar exit and a diameter of the photomultiplier cathods of 2cm ( beeing equal to the distance of the centers of the cathods) the geometric contribution of the Single Photon Cherenkov Angle Resulution can be calculated and lies in the order of magnitude of 10mrad

  • to this geometric contribution the resolution contribution (comming from the production and the transmission dispersion) has to be added which has a values of similar size

  • Correlation of Cherencov angle thetaCh as a function of laboratory momentum in the DIRC detector. The arrows mark a resolution of 10mrad.:
    Correlation of Cherencov angle Theta c as a function of laboratory momentum in the DIRC detector. The arrows mark a resolution of 10mrad.

  • The resolution of the track Cherenkov angle sigma_track should scale with the number of photons detected:

sigma_track = sigma_single / sqrt(N_ph)

  • Identification Efficiency for Kaons and pions (Ref. CDR):
    Identification Efficiency for Kaons and pions

  • It is show the probability to misidentify a pion as a kaon as a function of the particle momentum (red circles) and the efficiency to identify a kaon (open circles)

  • Material Budget:

  • with 17mm (of thickness) of fused silica the DIRC bars present approximately 14% of a radiation length to normal incident particles

-- GeorgSchepers - 25 Apr 2006
Topic attachments
I Attachment Action Size Date Who Comment
corr_ang_mom.gifgif corr_ang_mom.gif manage 4.2 K 25 Apr 2006 - 08:46 GeorgSchepers Correlation of Cherencov angle Theta c as a function of laboratory momentum in the DIRC detector. The arrows mark a resolution of 10mrad.
identification_alone.gifgif identification_alone.gif manage 12.1 K 25 Apr 2006 - 09:31 GeorgSchepers Identification Efficiency for Kaons and pions
kkgamma.gifgif kkgamma.gif manage 61.4 K 19 Apr 2006 - 13:50 GeorgSchepers Polar angle vs. momentum distribution of the kaons in radiative decays of resonances in formation experiments like J/psi -> K+K- gamma for the search of glue-balls.
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Topic revision: r8 - 25 Apr 2006, GeorgSchepers
 
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