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Nonlinear $\delta f$ Method for Beam-Beam Simulation

Accelerator Physics 2007-05-23 v1 Computational Physics

Abstract

We have developed an efficacious algorithm for simulation of the beam-beam interaction in synchrotron colliders based on the nonlinear δf\delta f method, where δf\delta f is the much smaller deviation of the beam distribution from the slowly evolving main distribution f0f_0. In the presence of damping and quantum fluctuations of synchrotron radiation it has been shown that the slowly evolving part of the distribution function satisfies a Fokker-Planck equation. Its solution has been obtained in terms of a beam envelope function and an amplitude of the distribution, which satisfy a coupled system of ordinary differential equations. A numerical algorithm suited for direct code implementation of the evolving distributions for both δf\delta f and f0f_0 has been developed. Explicit expressions for the dynamical weights of macro-particles for δf\delta f as well as an expression for the slowly changing f0f_0 have been obtained.

Keywords

Cite

@article{arxiv.physics/0010055,
  title  = {Nonlinear $\delta f$ Method for Beam-Beam Simulation},
  author = {Yunhai Cai and Alexander W. Chao and Stephan I. Tzenov and Toshi Tajima},
  journal= {arXiv preprint arXiv:physics/0010055},
  year   = {2007}
}

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14 pages