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In this event 240 eV electron is passing through the MICE Cerenkov detector.

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Presentation on theme: "In this event 240 eV electron is passing through the MICE Cerenkov detector."— Presentation transcript:

1 In this event 240 eV electron is passing through the MICE Cerenkov detector

2 Definition of the materials in the detector. All numbers have to be carefully checked !!! Some of them are arbitrary Aerogel 1 Density = 0.251*g/cm3 Absorption length = 245.0*mm Refractive Index = 1.08 Rayleigh scattering length is calculated by the formula : Where C = 1e-24 m3

3 Aerogel 2 Density = 0.430 g/cm3 Absorption length = 245.0 mm - the same like in aerogel 1 ?!?! Refractive Index = 1.12 Rayleigh scattering length is calculated by the same formula and is the same like in Aerogel 1 ?!?! Optical glass (the material for the Glass window) Density = 2.6 g/cm3; Refractive Index = 1.4 The used absorption length is shown in the graphics Probably it is not the correct one No Rayleigh scattering in this material

4 Optical PMT glass (the material for the windows of the PMTs) Density = 2.6 g/cm3; Refractive Index = 1.4 No absorption in this material. No Rayleigh scattering in this material Optical air (only the vessels of the cerenkov detector are filled with this material) Density = 1.29 g/cm3; Refractive Index = 1.0 No absorption in this material. No Rayleigh scattering in this material

5 Energy and wavelength of the photons which hit the PMTs The time of the hits in the PMTs for Vessel 1 (n=1.08) and Vessel 2 (n=1.12)

6 Angle of incidence in Vessel 1 (n=1.08) and Vessel 2 (n=1.12) Number of photon hits per PMT in Vessel 1 (n=1.08) and Vessel 2 (n=1.12)

7 Number of photoelectrons in one digit in Vessel 1 and Vessel 2

8 The time of the first photoelectron in Vessel 1 and Vessel 2 The time of the photoelectron minus the time of the first

9 Performance of the shaper – the worst case scenario

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