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800 MHz 2-Cavity module simulations

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Presentation on theme: "800 MHz 2-Cavity module simulations"— Presentation transcript:

1 800 MHz 2-Cavity module simulations
Yaroslav Shashkov NRNU MEPHI / CERN (BE-RF-BR) With input from: R. Calaga T. Roggen N.P. Sobenin M. Zobov

2 Content Probe and Hook couplers Hybrid coupler Grooved beam pipe Comparison

3 Array of 2 cells

4 2 cell cavity simulation
1032 MHz 1099 MHz

5 Coupled modes or 1+1≠2 1200 MHz 1276 MHz 1350 MHz

6 R/Q TM01 cut off TE11 cut off 1 , Ohm 2
1 – First dipole modes (TE111, TM110) 2 – Coupled modes

7 Qext 2 1 1 – First dipole modes (TE111, TM110)
2 – Coupled modes Qext is little bit too high

8 Rsh

9 S-parameters before tuning

10 Tuning

11 S-parameters after tuning

12 Qext after first tuning attempt
1 1 – same modes but different polarizations

13 Qext after first tuning attempt
1 1 – same modes but different polarizations

14 S-parameters after tuning

15 Rotation of cavities for damping polarized modes

16 Qext after rotation 1 Qext are one order of magnitude lower except for the strange mode *1 which has R/Q of 0.8 Ohms

17 Qext After tuning

18 “Tesla” couplers Pros: Widespread well known technology
Could be easy in manufacturing Just 2 couplers required for each cell Cons: Non demountable

19 S-parameters for Tesla coupler

20

21 Cut off at 1.9 GHz Notch at 800 MHz 0 dB -20 dB

22 Hybrid coupler

23 Qext Qext are of the same order for both types of couplers

24 Grooved beam pipe Pros High HOM damping rates
No complains on operation for similar designs (KEKB, CESR-B, etc.) Cons More longitudinal space required Scaling to 4 cavities is complicated

25 Qext Orange – monopole modes Blue – Dipole, quadrupole, etc

26 R/Q for grooved cavity 1 2 1 – First dipole modes (TE111, TM110)
2 – Coupled modes

27 Longitudinal Rsh Longitudinal Rsh is lower than 10^3 Ohms

28 Transverse Rsh Longitudinal Rsh is lower tha 10^3 Ohms

29 Comparison of Qext

30 Conclusion Tesla type coupler shows similar results on HOM damping comparing to Probe and Hook and the decision on which technology to use should be dictated from technological point of view The grooved beam pipe design shows very good results on HOM damping but it requires more longitudinal space and cryomodules. However this design could be attractive for the schemes that requires less than 4 cavities

31 Thank you for attention

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