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Digital Calorimeter Simulation

Digital Calorimeter Simulation. J.Yamada ( Shinshu U ). Purpose. Using Geant4 simulation. I compare digital calorimeter with analog, and estimate ability of digital. Calorimeter. lead 1m×1m×8mm sci 1m×1m×2mm. Sandwich Hadron Calorimeter. ×100 Layers. 1m×1m. ・・・. incident. 1m.

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Digital Calorimeter Simulation

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  1. Digital Calorimeter Simulation J.Yamada (Shinshu U)

  2. Purpose Using Geant4 simulation. I compare digital calorimeter with analog, and estimate ability of digital.

  3. Calorimeter lead 1m×1m×8mm sci 1m×1m×2mm Sandwich Hadron Calorimeter ×100 Layers 1m×1m ・・・ incident 1m

  4. Analog lead 1m×1m×8mm sci 1m×1m×2mm ×100Layers measure all energy each layer Measure Energy Digital lead 1m×1m×8mm sci 1cm×1cm×2mm ×10000 ×100Layers measure number of all hits Nhit Digital Calorimeter

  5. MIP(minimum ionizing particle) 0.32MeV = 1MIP

  6. Measure Data of 1event analog digital Nhit e :79 hits π :101hits MeasureEnergy e :109MeV π :111MeV

  7. Histogram of electron(4GeV、1000event) analog digital Mean :102.8MeV Sigma :10.41MeV Mean :35.39hits Sigma :5.467hits

  8. Histogram of π(4GeV、1000event) analog digital Mean :113.9MeV Sigma :34.43MeV Mean :35.59hits Sigma :9.027hits

  9. Threshold Dependence(Energy Resolution 1) electron π

  10. Threshold Dependence(Energy Resolution 2) electron π

  11. Threshold Dependence(Nhit) electron π

  12. Measure Energy , Nhit(Incident Energy Dependence) analog digital

  13. Energy Resolution(Incident Energy Dependence) π electron

  14. Cell Size Dependence(Measure Energy , Nhit) π electron

  15. Cell Size Dependence(Energy Resolution) π electron

  16. Compare with Experiment π electron

  17. Summary I can simulate digital calorimeter with Geant4. Digital is expected equal ability to analog of hadron calorimeter.

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