Numerical calculation of dynamical friction in electron cooling systems , including magnetic field perturbations and finite time effects

@inproceedings{Sobol2010NumericalCO,
  title={Numerical calculation of dynamical friction in electron cooling systems , including magnetic field perturbations and finite time effects},
  author={Alexander Sobol and David L. Bruhwiler and George I. Bell and A O Fedotov and Vladimir Litvinenko},
  year={2010}
}
The orders-of-magnitude higher luminosities required by future electron–ion collider concepts require a dissipative force to counteract the numerous factors acting to gradually increase the phase space volume of relativistic ion beams. High-energy electron cooling systems could provide the necessary dissipation via dynamical friction, but will have to be designed for new parameter regimes. It is expected that magnetic field errors, finite interaction time and other effects will reduce the… CONTINUE READING
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Showing 1-10 of 21 references

Status of the R&D towards electron cooling of RHIC

  • I Ben-Zvi
  • Proc. Particle Accelerator Conf
  • 2007
2 Excerpts

Experimental demonstration of relativistic electron cooling

  • S Nagaitsev
  • Phys. Rev. Lett
  • 2006
1 Excerpt

High - energy electron cooling in a collider New

  • V FedotovA, I Ben-Zvi, D Bruhwiler, N LitvinenkoV, O SidorinA
  • J . Phys
  • 2006

Numerical study of the magnetized friction force

  • A VFedotov, D LBruhwiler, +5 authors V NLitvinenko
  • Phys. Rev
  • 2006

Simulations of dynamical friction including spatially - varying magnetic fields Beam Cooling and Related Topics ( AIP Conf

  • I BellG, D Bruhwiler, +5 authors R CaryJ
  • 2006

Simulations of dynamical friction including spatially-varying magnetic fields Beam Cooling and Related Topics

  • G IBell, D LBruhwiler, +5 authors J RCary
  • (AIP Conf. Proc
  • 2006

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