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Comparison of Power Deposition in SC1 Coil

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  1. Comparison of Power Deposition in SC1 Coil Xiaoping Ding UCLA Target Studies Jun. 29, 2010

  2. Part 1: Vary Shielding Material

  3. Part1: Introduction • Using MARS15 to study energy deposition. • Study II geometry and magnetic field map. • Using optimized target parameters for Hg jet & Proton Beam. • The number of particles in a given pulse of beam (4MW, 8GeV) is 3.125*1015 s-1.

  4. SC1 SC2 SC3 SC4 SC5 Air FeCo WC Shield Hg Jet Hg Jet STST Env (Bottle) Pre-Trgt Res Sol Hg Pool BeWindow (z=600cm) Part 1: Target Geometry

  5. Part 1: Power Deposition in SC18GeV & 4MW Proton beam

  6. Part 2: Beryllium Target

  7. Part 2: Introduction • Using MARS15 to study energy deposition. • Study II geometry and magnetic field map. • Using optimized target parameters for Beryllium Target & Proton Beam (length of 70cm on z-axis & radius of 6mm for Be target, tilt of 45 mrad for both target and beam to z-axis). • The number of particles in a given pulse of beam (4MW, 8GeV) is 3.125*1015 s-1.

  8. Part 2: Target Geometry

  9. Part 2: Power Deposition in SC18GeV & 4MW Proton beam

  10. Part 2: Distribution of Energy Deposition Mercury Beryllium

  11. Part 2: Energy Deposition8GeV & 4MW Proton beam

  12. Part 2: Energy Deposition8GeV & 4MW Proton beam

  13. Part 2: Comparison of Meson Production8GeV & 4MW Proton beam and 40MeV<KE<180MeV