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Comparison of Power Deposition in SC1 Coil

This study compares the power deposition in SC1 coil using different shielding materials and optimized target parameters for Hg jet and proton beam. It also examines the power deposition in SC1 and SC18 GeV & 4 MW proton beam using a Beryllium target.

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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

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