Increasing the Phase-Space Density of High Energy Particle Beams

“…At the same time, the beam is reheated by scattering and stochastic effects. This is also true with Van der Meer cooling where the particle is heated by interactions with the other particles in the beam and by noise due to the electrons in the cooling system [5].…”

“…Liouville's theorem guarantees conservation of sixdimensional phase-space density. Relatively new is the inclusion of stochastic phenomena, particles interacting with other particles, such as those needed to describe electron cooling or muon ionization cooling channels [1][2][3][4][5].…”

Stochastic processes in muon ionization cooling

“…At the same time, the beam is reheated by scattering and stochastic effects. This is also true with Van der Meer cooling where the particle is heated by interactions with the other particles in the beam and by noise due to the electrons in the cooling system [5].…”

“…Liouville's theorem guarantees conservation of sixdimensional phase-space density. Relatively new is the inclusion of stochastic phenomena, particles interacting with other particles, such as those needed to describe electron cooling or muon ionization cooling channels [1][2][3][4][5].…”

Stochastic processes in muon ionization cooling

“…In electron cooling of stored beams a monoenergetic electron beam with small divergence is merged with the ion beam [1][2][3]. Both beams have the same average velocity, the electron beam has, however, a much narrower velocity distribution.…”

Beam extraction with electron pick-up

“…Beam cooling [1][2][3][4] aims at reducing the size and the energy spread of a particle beam circulating in a storage ring. This reduction should not be accompanied by beam loss; rather the goal is to increase the particle density.…”

History of stochastic beam cooling and its application in many different projects