Metamaterial insertions for resistive-wall beam-coupling impedance reduction

Abstract

Resistive-wall impedance usually constitutes a significant percentage of the total beamcoupling impedance budget of an accelerator. Reduction techniques often entail high electrical-conductivity coatings. This paper investigates the use of negative-permittivity or negative-permeability materials for sensibly reducing or theoretically nearly cancelling resistive-wall impedance. The proposed approach is developed by means of an equivalent transmission-line model. The effectiveness of such materials is benchmarked for the negative permeability case with experimental measurements in two frequency bandwidths. This first-stage study opens the possibility of considering metamaterials for impedance mitigation.