Analysis of off-momentum nonlinear driving terms for enlarging off-momentum dynamic apertures

Analysis of off-momentum nonlinear driving terms for enlarging off-momentum dynamic apertures

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Due to scattering, particles in a ring may have large momentum luce chandelier deviations, which will change their dynamics, potentially resulting in particle losses.Optimization of off-momentum nonlinear dynamics is, therefore, important for increasing beam lifetime.When analyzing off-momentum dynamics using the approach of resonance driving terms (RDTs), chromatic RDTs are usually used, which denote the deviations from on-momentum dynamics.

In this paper, instead of using chromatic RDTs, we propose using off-momentum RDTs to analyze off-momentum dynamics, which is a more direct way.As in the case of on-momentum dynamics, the nonlinear driving terms for off-momentum particles include off-momentum RDTs and off-momentum amplitude-dependent tune shifts, which are calculated based on off-momentum linear optics.Similar to the analysis of on-momentum dynamics in our previous work [B.

Wei et al., Phys.Rev.

Accel.Beams 26, 084001 (2023)PRABCJ2469-988810.1103/PhysRevAccelBeams.

26.084001], we study the fluctuation or variation of off-momentum RDTs along the longitudinal position, which is very effective for analyzing and optimizing off-momentum dynamic apertures (DAs).Similar results are obtained for the off-momentum case: (i) minimizing the element-by-element average of the RDTs is more effective than minimizing one-turn folk rivet sweat RDTs in enlarging DAs and (ii) minimizing the average of lower-order RDTs helps reduce higher-order RDTs.