Abstract
We describe a novel particle accelerating structure consisting of Complementary Split-Ring Resonators (C-SRRs) etched into the lower and upper walls of a copper rectangular waveguide. Outer cylindrical cavities enclosing the C-SRR sections allow a vacuum to be maintained. The accelerating gradient of a 1 GHz cavity is simulated to be 8.76 MV/m, when referenced to the actual accelerating gap, for only 10.7 kW of input power. Particle simulation results confirm the efficacy of the proposed structure. A simple analytical model of the structure is given as a design aid to compute the relationship between the key geometrical parameters and the resonance frequency.
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