Simulation of microphonic effects in high QL TESLA cavities during CW operations

A. Bellandi; W. Cichalewski; J. Branlard; A. Nawaz; R. Rybaniec; H. Schlarb; C. Schmidt

Simulation of microphonic effects in high Q_L TESLA cavities during CW operations

A. Bellandi, W. Cichalewski, J. Branlard, A. Nawaz, R. Rybaniec, H. Schlarb, C. Schmidt

Institute of Electrical Engineering in Medicine

Abstract

This document describes a new package to compute high performance simulations of a module of superconducting accelerating cavities from the LLRF controller perspective. The reason to make a dedicated C++/Python package is to simulate all the effects that arise during Continuous Wave (CW) operations at different timescales to speed-up the LLRF controller design. In particular the speed of the sampling rate of the ADCs used in a LLRF control system (some MHz) are 10⁴ - 10⁵ times faster than typical mechanical resonances and microphonics frequencies.

Original language	English
Publication status	Published - 03.2018

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https://arxiv.org/abs/1803.09038

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title = "Simulation of microphonic effects in high QL TESLA cavities during CW operations",

abstract = "This document describes a new package to compute high performance simulations of a module of superconducting accelerating cavities from the LLRF controller perspective. The reason to make a dedicated C++/Python package is to simulate all the effects that arise during Continuous Wave (CW) operations at different timescales to speed-up the LLRF controller design. In particular the speed of the sampling rate of the ADCs used in a LLRF control system (some MHz) are 104 - 105 times faster than typical mechanical resonances and microphonics frequencies.",

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T1 - Simulation of microphonic effects in high QL TESLA cavities during CW operations

AU - Bellandi, A.

AU - Cichalewski, W.

AU - Branlard, J.

AU - Nawaz, A.

AU - Rybaniec, R.

AU - Schlarb, H.

AU - Schmidt, C.

PY - 2018/3

Y1 - 2018/3

N2 - This document describes a new package to compute high performance simulations of a module of superconducting accelerating cavities from the LLRF controller perspective. The reason to make a dedicated C++/Python package is to simulate all the effects that arise during Continuous Wave (CW) operations at different timescales to speed-up the LLRF controller design. In particular the speed of the sampling rate of the ADCs used in a LLRF control system (some MHz) are 104 - 105 times faster than typical mechanical resonances and microphonics frequencies.

AB - This document describes a new package to compute high performance simulations of a module of superconducting accelerating cavities from the LLRF controller perspective. The reason to make a dedicated C++/Python package is to simulate all the effects that arise during Continuous Wave (CW) operations at different timescales to speed-up the LLRF controller design. In particular the speed of the sampling rate of the ADCs used in a LLRF control system (some MHz) are 104 - 105 times faster than typical mechanical resonances and microphonics frequencies.

UR - https://www.researchgate.net/publication/324055692_Simulation_of_microphonic_effects_in_high_Q_L_TESLA_cavities_during_CW_operations

M3 - Other

ER -

Simulation of microphonic effects in high Q_L TESLA cavities during CW operations

Abstract

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