Beam stability and halo formation in high-intensity axisymmetric 2D beams in a uniform focusing channel are analyzed using particle-in-cell simulations. The tune depression-mismatch space is explored for the uniform (KV) distribution of the particle transverse-phase-space density, as well as for more realistic ones (in particular, the water-bag distribution), to determine the stability limits and halo parameters. The numerical results show an agreement with predictions of the analytical model for halo formation
Halo formation is an important issue in intense charged par-ticle beams because the loss of halo par...
Halo formation is an important issue in the development of high-power accelerators. In this paper, w...
This paper demonstrates that transverse beam halos can be controlled by combining nonlinear focusing...
Beam stability and halo formation in high-intensity axi-symmetric 2D beams in a uniform focusing cha...
Halo formation in high-intensity axisymmetric beams in a periodic focusing channel is analyzed using...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
Intense nonuniform particle beam exhibits strong emittance growth and halo formation in linear focus...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
Many explanations of halo formation in high current ion beams require the existence of particles whi...
A new class of self-consistent 6-D phase space station-ary distributions is constructed both analyti...
Halo formation is an important issue in intense charged par-ticle beams because the loss of halo par...
Halo formation is an important issue in the development of high-power accelerators. In this paper, w...
This paper demonstrates that transverse beam halos can be controlled by combining nonlinear focusing...
Beam stability and halo formation in high-intensity axi-symmetric 2D beams in a uniform focusing cha...
Halo formation in high-intensity axisymmetric beams in a periodic focusing channel is analyzed using...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
We study halo formation from cylindrical beams propagating in a uniform focusing channel. Of particu...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
Intense nonuniform particle beam exhibits strong emittance growth and halo formation in linear focus...
A new class of self-consistent 6-D phase space stationary distributions is constructed both analytic...
Many explanations of halo formation in high current ion beams require the existence of particles whi...
A new class of self-consistent 6-D phase space station-ary distributions is constructed both analyti...
Halo formation is an important issue in intense charged par-ticle beams because the loss of halo par...
Halo formation is an important issue in the development of high-power accelerators. In this paper, w...
This paper demonstrates that transverse beam halos can be controlled by combining nonlinear focusing...