2D and 3D Collimator Impedance Modeling and Experimental Measurements

N. Biancacci; D. Amorim; S. Antipov; G. Mazzacano; B. Salvant; E. Metral; O. Frusciello; M. Zobov; A. Mostacci

doi:10.23732/CYRCP-2018-001.17

2D and 3D Collimator Impedance Modeling and Experimental Measurements

Authors

N. Biancacci CERN, Geneva
D. Amorim CERN, Geneva
S. Antipov CERN, Geneva
G. Mazzacano CERN, Geneva
B. Salvant CERN, Geneva
E. Metral CERN, Geneva
O. Frusciello INFN-LNF, Frascati
M. Zobov INFN-LNF, Frascati
A. Mostacci University of Rome “La Sapienza", Rome

DOI:

https://doi.org/10.23732/CYRCP-2018-001.17

Keywords:

Accelerators, conference, impedance, collimators, LHC.

Abstract

In order to safely operate high energy particle accelerators, an advanced collimation system in terms of absorber material choice, alignment precision and low impedance impact is often required. In this work we will summarize the recent advancement on collimator impedance modeling starting from simple 2D structures, involving resistive jaws and transition tapers, to complex 3D structures, involving multilayer coatings, embedded beam position monitors, contact fingers, and jaw segmentation. Measurements techniques based on the stretched and resonant wire methods will be presented in order to support simulations, together with DC and RF resistivity measurements of the jaw material samples. Recent single collimator beam based measurements will be presented as well.

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Published

2018-11-07

Issue

Vol. 1 (2018): Proceedings of the ICFA Mini-Workshop "Impedances and Beam Instabilities in Particle Accelerators"

Section

Submission to the proc. of the ICFA Mini-Workshop Workshop "Impedances and Beam Instabilities in Particle Accelerators"

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