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Calculations of wakefields for the LHCb VeLo. Olga Zagorodnova Desy Hamburg April 29, 2015 1.

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Presentation on theme: "Calculations of wakefields for the LHCb VeLo. Olga Zagorodnova Desy Hamburg April 29, 2015 1."— Presentation transcript:

1 Calculations of wakefields for the LHCb VeLo. Olga Zagorodnova Desy Hamburg April 29, 2015 1

2 3D-calculations of wake fields for the LHCb VeLo were done using of the Wakefield Solver of CST 2015. The first step of the calculations – calculations for the original CATIA structure. The accuracy of the calculations was insufficient. The second step – calculations for the simplified model. 2

3 Different sets of the meshes. Δ xΔ z Mesh 1 1mm 2mm Mesh 20.5mm 2mm Mesh 30.5mm 1mm Mesh 40.2mm0.5mm1mm Mesh 50.5mm0.2mm1mm Mesh 60.2mm0.5mm Mesh 70.4mm 0.5mm impossibly The calculations were performed for different beam positions: 1. x=0, y=0; 2. x=1.5mm, y=0; 3. x=0, y=1.5mm 3

4 Longitudinal wake potential was calculated for 10m and for different mesh properties – Mesh2, Mesh3. Calculations have been done for the Gaussian bunch shape (σ = 7.5cm). 4

5 Longitudinal wake potential for Mesh3, Mesh4. Calculations have been done for the Gaussian bunch shape (σ = 7.5cm). 5

6 X-component and Y-component of the transverse wake potential for different mesh properties. Beam position – on axis. Calculations have been done for the Gaussian bunch shape (σ = 7.5cm). Mesh1, Mesh3, Mesh4 6

7 Longitudinal wake potentials for different mesh properties and for different beam positions: 1. x = 1.5mm, y=0 and 2. x=0, y=1,5mm. Gaussian bunch shape (σ = 7.5cm). 1 2 Mesh1, Mesh3, Mesh4 Mesh1, Mesh3, Mesh5 7

8 X – components of the transverse wake potentials for different mesh properties and for different beam positions: 1. x = 1.5mm, y=0 and 2. x=0, y=1,5mm. Gaussian bunch shape (σ = 7.5cm). Mesh1, Mesh3, Mesh4 Mesh1, Mesh3, Mesh5 8

9 Y – components of the transverse wake potentials for different mesh properties and for different beam positions: 1. x = 1.5mm, y=0 and 2. x=0, y=1,5mm. Gaussian bunch shape (σ = 7.5cm). Mesh1, Mesh3, Mesh4 Mesh1, Mesh3, Mesh5 9

10 Real and imaginary parts of the longitudinal wake impedance. The impedance was calculated with help of CST Studio for the wake potential (75m). Wake potential was calculated for the Gaussian bunch shape (σ = 7.5cm). with following mesh set: dx=0.5mm, dy=0.5mm, dz=1mm. 10

11 Real and imaginary parts of the longitudinal wake impedance. The impedance was calculated with help of CST Studio for the wake potential(10m). Wake potential was calculated for the Gaussian bunch shape (σ = 1cm) with following mesh set: dx=0.2mm, dy=0.5mm, dz=1mm. 11

12 Comparison of 10-m longitudinal wake potentials, presented for the region until 5m. Wake potentials were calculated for Gaussian bunch shape (σ = 1cm) with following mesh sets: dx=0.5mm, dy=0.5mm, dz=1mm; dx=0.2mm, dy=0.5mm, dz=1mm; 12

13 Δ xΔ z Mesh 1 1mm 2mm Mesh 20.5mm 1mm Δ r Mesh 1 1mm2mm Mesh 20.5mm1mm Mesh 30.2mm0.5mm Symmetric 2D model for ECHO2D. The third step of calculations – calculations for the simplified model. Symmetric 3D model for CST 13

14 Longitudinal monopole wake potential – 2D and 3D calculations. For Gaussian bunch shape σ = 7.5cm 14

15 Longitudinal dipole and transverse dipole wake potential – 2D calculations. For Gaussian bunch shape σ = 7.5cm Longitudinal dipole wake potential Transverse dipole wake potential 15

16 Comparison of 10-m longitudinal wake potentials, presented for the region until 2m. Wake potentials were calculated for Gaussian bunch shape (σ = 1cm) with different mesh sets. 16

17 17

18 Real and imaginary parts of the longitudinal wake impedance for the rotationally symmetric structure. The impedance was calculated with help of CST Studio for the wake potential obtained for the Gaussian bunch shape (σ = 7.5cm). 18

19 Real and imaginary parts of the longitudinal wake impedance for the rotationally symmetric structure. The impedance was calculated with help of CST Studio for the wake potential obtained for the Gaussian bunch shape (σ = 1cm). 19

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