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Incline Tracks Theo Alexopoulos , George Iakovidis , Venetios Polychronakos 12 / 10/2010

Incline Tracks Theo Alexopoulos , George Iakovidis , Venetios Polychronakos 12 / 10/2010. How well can we measure the incline tracks? How many micromegas planes do we need to achieve 1 mrad resolution? . Use a toy Monte Carlo to study these questions. Parameters of the problem:

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Incline Tracks Theo Alexopoulos , George Iakovidis , Venetios Polychronakos 12 / 10/2010

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  1. Incline TracksTheo Alexopoulos, George Iakovidis, VenetiosPolychronakos12/10/2010

  2. How well can we measure the incline tracks? • How many micromegas planes do we need to achieve 1 mrad resolution? • Use a toy Monte Carlo to study these questions. Parameters of the problem: • Number of mm planes, N • Distance between planes, L • Singe hit resolution, Δx • Angle of incline tracks, θ N=3 L N=2 L θ N=1

  3. Ν = 2 L=10 mm θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm

  4. Ν = 2 L=100 mm θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm

  5. Ν = 3 L=10 mm θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm

  6. Ν = 3 L=100 mm θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm

  7. Ν=2, L=10mm θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm Ν=3, L=10mm Ν=2, L=100mm Ν=3, L=100mm N=1

  8. Ν=2, L=10mm θ =30ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm Ν=3, L=10mm Ν=2, L=100mm Ν=3, L=100mm

  9. Ν=2, L=10mm θ =70ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm Ν=3, L=10mm Ν=2, L=100mm Ν=3, L=100mm

  10. Ν=2 θ =50ο smear = 0.500 mm Δxoffset = 0.100 mm Δyoffset = 0.100 mm Ν=3

  11. Ν=2 θ =50ο smear = 1.000 mm Δxoffset = 0.100 mm Δyoffset = 0.100 mm Ν=3

  12. Ν=2 Ν=2, L=10mm θ =50ο smear = 0.500 mm Δyoffset = 0.100 mm Ν=3, L=10mm Ν=2, L=100mm Ν=3, L=100mm

  13. Ν = 1 θ = 50ο Δxoffset = 0.100 mm Δyoffset = 0.100 mm N=1

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