Initial Results from a 3D Magnetic Model of the Injector Cryomodule Entrance Shield Jim Crittenden ERL General Meeting, 2 April 2009 Post-meeting annotations:

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Presentation transcript:

Initial Results from a 3D Magnetic Model of the Injector Cryomodule Entrance Shield Jim Crittenden ERL General Meeting, 2 April 2009 Post-meeting annotations: 1) Wrong sign in two coils resulted in zero net kick in each plane 2) Bug found: current densities were 200 A/cm^2 instead of 110 A/cm^2 3) Note that mu metal thickness is 50 mils

2 2 April 2009ERL General / J.A.Crittenden CAD and OPERA Model Comparison CAD pictures from Eric Chojnacki

3 2 April 2009ERL General / J.A.Crittenden B-H Curve for AD-MU 80 Information and reasoning by Eric Chojnacki. “Magnetic Shielding in a Cryogenic Environment” by Arentz, Johnson and Dant 77 K 300 K

4 2 April 2009ERL General / J.A.Crittenden Field Components on Beam Axis Horizontal Component 0 < B X < Gauss Integral: Gauss-cm (Calculation accuracy) Vertical Component < B Y < 0.2 Gauss Integral: -2.7 Gauss-cm (Contribution by shield) 100 Amps in both horizontal and vertical corrector coils. Shield at Z = 0 cm -25 < Z < 25 cm Longitudinal Component -7 < B Z < 11 Gauss Integral: 2.7 Gauss-cm (Contribution by coil)

5 2 April 2009ERL General / J.A.Crittenden Systematic Check with Mu Metal Turned Off Horizontal Component B X < Gauss (Calculation accuracy) Vertical Component B Y < Gauss (Calculation accuracy) 100 Amps in both horizontal and vertical corrector coils. Shield at Z = 0 cm -25 < Z < 25 cm Longitudinal Component -8 < B Z < 8 Gauss (Contribution by coil)

6 2 April 2009ERL General / J.A.Crittenden Electron Tracking 250 keV electrons 11 x 11 entrance grid over 2 x 2 cm tracked for 75 cm

7 2 April 2009 J.A.Crittenden Preliminary Conclusions The shape of the shield does not introduce as much distortion in the electron trajectories as observed The 3D model is available for further development All suggestions welcome

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