Speaker
John Wieland
(Fermi National Accelerator Laboratory)
Description
Nonlinear integrable optics of the type proposed by Danilov and Nagaitsev place strict constraints on the lattice parameters in the matching section outside of the nonlinear insert. In particular, the effects of energy spread in the beam have significant effects on the stability of the system. Typical chromatic compensation using sextupoles has significant perturbative effects on the dynamics but is operationally necessary to suppress fast losses. Fast decoherence of kicked beam measurements limits the available signal for studies. Refinements to the IOTA lattice parameters based on this experience with electron beam operation are presented.
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Author
John Wieland
(Fermi National Accelerator Laboratory)
Co-author
Alexander Romanov
(Fermi National Accelerator Laboratory)
