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Advanced MICE Analysis of the Redesigned Intrinsic Scatterer and Diffuser Design

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This document presents a detailed analysis of the redesigns and functionalities of the Intrinsic Scatterer and diffuser using advanced modeling techniques. The focus is on analyzing the effects of different input parameters on the produced outputs, including amplitude, energy loss, and statistical metrics. Measurements of the Blackmore MICE analysis meeting on 24/08/10 are included, highlighting the performance characteristics of the new diffuser materials. Future developments and investigations into the 'Gap Effect' are discussed, indicating ongoing research in this area.

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Advanced MICE Analysis of the Redesigned Intrinsic Scatterer and Diffuser Design

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  1. 1/9 IRIS Diffuser V. Blackmore MICE Analysis Meeting: 24/08/10 IRIS: IncrediblyRedesignedIntrinsicScatterer

  2. 2/9 = + + + = Brass (or tungsten) diffuser ‘slice’ = Tufnol ring (Nylon 6/6 in model) G4MICE Model Makeup 100mm 162mm

  3. 3/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm Amplitude 15mm Pb  <AT> = 37.53, srms = 25.52

  4. 4/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm Px (or Py) 15mm Pb  <Px> = 0.24, srms = 27.54

  5. 5/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm x (or y) 15mm Pb  <x> = 0.33, srms = 39.95

  6. 6/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm Energy Loss 15mm Pb  <DE> = 20.27, srms = 1.68

  7. 7/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm Energy Loss 15mm Pb  <DE> = 20.27, srms = 1.68

  8. 8/9 Input: e = 2.5mm, a = 0.43, b = 1306mm Produces: e = 9.2mm, a = -0.12, b = 257mm (x, y)

  9. 9/9 “Gap Effect” To be continued...

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