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Simulation of Monopole modes trapped in LHC collimator

Simulation of Monopole modes trapped in LHC collimator. A.Grudiev. LHC collimator geometry in HFSS. Time domain simulation with GdfidL. Second mode->. First mode ->. Electric field of the first mode in log scale (gap=10mm).

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Simulation of Monopole modes trapped in LHC collimator

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  1. Simulation ofMonopole modes trapped in LHC collimator A.Grudiev

  2. LHC collimator geometry in HFSS

  3. Time domain simulation with GdfidL Second mode-> First mode ->

  4. Electric field of the first mode in log scale (gap=10mm)

  5. First bunch (blue) and total wake (red) along the train for the first mode f=0.6GHz (15th-harmonic of bunch frequency) Q=136 r/Q = 0.1 Ohm (accelerator impedance) k = 0.13 V/nC (loss factor) For Max. single bunch energy loss: 1.2V/nC x 16nC = 19V Total energy loss per train: dE = 0.85 mJ Dissipated power: dE x frev = 10 W

  6. Electric field of the second mode in log scale (gap=10mm)

  7. First bunch (blue) and total wake (red) along the train for the second mode f=1.24GHz (31st-harmonic of bunch frequency) Q=892 r/Q = 2.67 Ohm (accelerator impedance) k = 5.2 V/nC (loss factor) For Max. single bunch energy loss: 35V/nC x 16nC = 560V Total energy loss per train: dE = 24.7 mJ Dissipated power: dE x frev = 278 W

  8. Longitudinal impedance calculated using Gdfidl (red) and HFSS (blue)

  9. Geometrical longitudienal short-range wake in LHC collimator

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