Difference between revisions of "Recoil proton reconstruction"

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# Missing masses were computed for different momentum ranges of generated protons. Reconstructed proton tracks were required to satisfy chi2/ndof < 10. The top left plot represents the missing mass distribution for all reconstructed protons.
 
# Missing masses were computed for different momentum ranges of generated protons. Reconstructed proton tracks were required to satisfy chi2/ndof < 10. The top left plot represents the missing mass distribution for all reconstructed protons.
  
* Toy MC: pi0 missing mass for various momentum and angular resolutions
+
* Toy MC: pi0 missing mass distributions for various momentum and angular resolutions

Revision as of 21:51, 1 October 2011

gamma p -> p eta decays

  • Recoil proton kinematics

P eta kin.png

  1. Proton polar angle versus proton momentum for generated events (top left)
  2. Momentum distributions for generated and reconstructed protons as a function of the p generated momentum (top right)
  3. Polar angle of reconstructed protons as a function of the proton generated momentum (middle left)
  4. Chisq/Ndof for reconstructed protons (middle right)
  5. Ndof distribution (bottom left)
  6. Ndof versus proton momentum (bottom right)


  • Proton momentum residuals

P eta presid no cut.png No cuts P eta presid chi10.png Chisq/Ndof < 10


  • Proton momentum resolution and reconstruction bias

P eta mom res.png


  • Polar angle residuals

P eta theta resid.png


  • Polar angle resolution

P eta theta res.png


  • Proton reconstruction efficiency

P eta rec eff.png


  • Eta missing mass distribution

P eta mis mas.png

  1. Missing masses were computed for different momentum ranges of

generated protons. Reconstructed proton tracks were required to satisfy chi2/ndof < 10. The top left plot represents the missing mass distribution for all reconstructed protons.


gamma p -> p pi0 decays

  • Recoil proton kinematics

P pi kin.png

  1. Proton polar angle versus proton momentum for generated events (top left)
  2. Momentum distributions for generated and reconstructed protons as a function of the p generated momentum (top right)
  3. Polar angle of reconstructed protons as a function of the proton generated momentum (middle left)
  4. Chisq/Ndof for reconstructed protons (middle right)
  5. Ndof distribution (bottom left)
  6. Ndof versus proton momentum (bottom right)
  • Proton momentum and polar angle resolutions

P pi mom res.png

  1. Reconstruction bias (top). The mean value of residuals, < p_rec - p_gen >, as a function of p_gen.
  2. Energy resolution dp/p (bottom). The distribution was fit to the function p1/sqrt(x) + p2

P pi theta res.png

  1. Reconstruction bias (top). The mean value of residuals, < theta_rec - theta_gen >, as a function of theta_gen.
  2. Angular resolution sigma(theta) in degrees (bottom). The distribution was fit to the function p1/x + p2
  • pi0 missing mass distribution

P pi mis mas.png

  1. Missing masses were computed for different momentum ranges of generated protons. Reconstructed proton tracks were required to satisfy chi2/ndof < 10. The top left plot represents the missing mass distribution for all reconstructed protons.
  • Toy MC: pi0 missing mass distributions for various momentum and angular resolutions
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