Practical aspects of transverse resonance island buckets at the Cornell Electron Storage Ring: design, control and application
Abstract
In an accelerator, the nonlinear behavior near a horizontal resonance line (nx) usually involves the appearance of stable fixed points (SFPs) in the horizontal phase space, also referred to as transverse resonance island ``buckets" (TRIBs). Specific conditions are required for TRIBs formation. At the Cornell Electron Storage Ring, a new method is developed to improve the dynamic and momentum apertures in a 6-GeV lattice as well as to preserve the conditions for TRIBs formation. This method reduces the dimension of variables from 76 sextupoles to 8 group variables and then utilizes the robust conjugate direction search algorithm in optimization. Created with a few harmonic sextupoles or octupoles, several knobs that can either rotate the TRIBs in phase space or adjust the actions of SFPs are discussed and demonstrated by both tracking simulations and experimental results. In addition, a new scheme to drive all particles into one single island is described. Possible applications using TRIBs in accelerators are also discussed.
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