N. BanerjeeFermilab, Batavia, Illinois, USA, A. RomanovFermilab, Batavia, Illinois, USA, M. WallbankFermilab, Batavia, Illinois, USA
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Proton beam dynamics in bare IOTA with intense space-charge
We are commissioning a 2.5-MeV proton beam for the Integrable Optics Test
Accelerator at Fermilab, allowing experiments in the strong space-charge regime
with incoherent betatron tune shifts nearing 0.5. Accurate modelling of
space-charge dynamics is vital for understanding planned experiments. We
compare anticipated emittance growth and beam loss in the bare IOTA
configuration using transverse space-charge models in Xsuite, PyORBIT, and MADX
simulation codes. Our findings reveal agreement within a factor of 2 in core
phase-space density predictions up to 100 synchrotron periods at moderate beam
currents, while tail distributions and beam loss show significant differences.
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