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C10 with different damping

C10 with different damping. Grudiev 23/10/2008. Radial Choke cell geometry. ~30mm. Two disks per cell are necessary to implement radial choke geometry. Electric field configuration. C10_vg1.16 WG damping. C10_vg1.35. C10_vg1.15 Radial Choke damping. Magnetic field configuration.

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C10 with different damping

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  1. C10 with different damping Grudiev 23/10/2008

  2. Radial Choke cell geometry ~30mm Two disks per cell are necessary to implement radial choke geometry

  3. Electric field configuration C10_vg1.16 WG damping C10_vg1.35 C10_vg1.15 Radial Choke damping

  4. Magnetic field configuration CD10_vg1.16 WG damping C10_vg1.35 CD10_vg1.15 Radial Choke damping

  5. Magnetic field configuration for different damping waveguides CD10_vg1.16 WG damping C10_vg1.35 CD10_vg1.32 WG damping

  6. Table of parameters ΔT @(100 MV/m, 200 ns) = 2*(Hs/Ea) 2 [K]

  7. List of new C10/CD10 structures • C10 structures with a=3mm which are already in the pipe-line • C10_vg1.35 • CD10_vg1.16_WDS • CD10_vg1.15_Choke new proposals in case CD10_vg1.16_WDS is much worse than C10_vg1.35 CD10_vg1.32_WDS C10_vg1.35_milled_NOT_turned CD10_vg1.16_WDS_CuZr CD10_vg1.16_WDS_GlidCop lower dT milling versus turning harder material harder material

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