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000353555 1001_ $$0P:(DE-Ds200)OR9462$$aOeftiger, Adrian$$b0$$eCorresponding author$$ugsi
000353555 245__ $$aSimulation results for study on pulsed electron lenses for space charge mitigation
000353555 260__ $$c2023
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000353555 520__ $$aSimulation results for beam loss in the FAIR SIS100 synchrotron for a comprehensive study on pulsed electron lenses for space charge mitigation. The affiliated manuscript 'Pulsed electron lenses for space charge mitigation' describing the study parameters is published on arxiv.org (https://arxiv.org/abs/2310.02365) and submitted for journal publication. For the 'ffsc' files, each file contains the tabulated beam survival rate of 1000 simulated particles for a given bare tune. A file typically gathers results from scanning the betatron tune quadrant 18.5 <= Qx,y <= 19.0 in tune steps of 0.01. Explanation of file names: - 'ffsc': using the fixed frozen Gaussian field map model for space charge (as established in https://doi.org/10.1103/PhysRevAccelBeams.25.054402 ); - 'nel': number of pulsed electron lenses placed symmetrically in the straight sections of the SIS100 ring; - 'alpha': linear compensation degree, alpha=1.0 corresponds to a total electron lens tune implied tune shift equal to the linear rms-equivalent KV space charge tune shift; - 'N': intensity in percent units of the FAIR design intensity for Uranium-28+ beams, i.e. N=100 corresponds to the FAIR design intensity; - '2D' or '3D': the 3D results correspond to the full simulation model with (nonlinear) synchrotron motion, the 2D results assume a fixed longitudinal phase-space distribution and only simulate the transverse dynamics (thus, periodic resonance crossing is suppressed by construction).
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000353555 650_7 $$2Other$$asimulation
000353555 650_7 $$2Other$$abeam dynamics
000353555 650_7 $$2Other$$aspace charge
000353555 650_7 $$2Other$$abeam loss
000353555 650_7 $$2Other$$aaccelerator physics
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000353555 7870_ $$0GSI-2024-00614$$aOeftiger, Adrian et.al.$$dCollege Park, Md. : APS, 2024$$iRelatedTo$$rarXiv:2310.02365$$tPulsed Electron Lenses for Space Charge Mitigation
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