Muon trigger - CSC and DT

  1. DT and CSC trigger idea
  2. DT and CSC cooperation

Cathode Strip Chambers

  1. CSC trigger - how it works
  2. CSC - radial or UV strips
  3. CSC trigger principle
  4. CSC cluster logic
  5. CSC local charged track (LCT) logic
  6. CSC bunch crossing identification
  7. muon trigger data readout
  8. CSC plans
  9. bending angle (d phi) in MF1 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  10. bending angle (d phi) in MF2 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  11. bending angle (d phi) in MF3 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  12. bending angle (d phi) in MF4 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  13. muon incident angle in MF1 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  14. muon incident angle in MF2 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  15. muon incident angle in MF3 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  16. muon incident angle in MF4 CSC (eta=1.5-1.7-1.9-2.1-2.3-2.5)
  17. efficiency of various CSC trigger options (eta=2.25)
  18. efficiency of various CSC trigger options (eta=1.75)

CSC - RPC cooperation

  1. The problem of CSC ambiguities
  2. Ways to solve the CSC ambiguities
  3. Direct CSC-RPC connection
  4. Solving CSC ambiguities in Track Finder
  5. Solving CSC ambiguities in Global Trigger

Drift Tubes

  1. DT trigger - how it works
  2. Drift Tube trigger principle
  3. meantimer measurement - redundancy

Track Finder

  1. Track Finder - how it works
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