Space charge modeling of dense electron beams with large energy spreads

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Abstract

Theoretical and numerical studies of the transport in vacuum of multi-nC, multi-MeV electron beams are performed using several methods, including envelope models, a novel semianalytic approach using ellipsoidal shell decomposition, a modified electrostatic particle-in-cell method, and a point-to-point interaction model. The effects of space-charge forces on the longitudinal and transverse bunch properties are evaluated for various bunch lengths, energies, energy spreads, and charges. An evaluation of the various methods for studying space-charge effects in large energy spread, high charge beams is summarized. Examples are given for beam distributions typical of those generated by plasma-based accelerators. It is found that, for the highly correlated beams produced in the self-modulated regime, the high energy portion of the beam can gain significant energy while propagating in vacuum due to space-charge effects. © 2006 The American Physical Society.

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Fubiani, G., Qiang, J., Esarey, E., Leemans, W. P., & Dugan, G. (2006). Space charge modeling of dense electron beams with large energy spreads. Physical Review Special Topics - Accelerators and Beams, 9(6). https://doi.org/10.1103/PhysRevSTAB.9.064402

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