Add to ORKGThe evolution of the coherent synchrotron frequency for the dipole mode with respect to the incoherent band is discussed analytically both in the unstable and stable regions. In the unstable region, Besnier's picture is recovered in the case of a capacitive impedance below transition or inductive impedance above transition. A general plot gathering all the results in both the unstable and stable regions is given. Finally, Sacherer's stability criterion is extended to include the potential-well distortion. This result is then applied to the case of the LHC at top energy
Collective effects in the acceleration and storage of particles have recently attracted considerable...
We study the loss of Landau damping for the longitudinal plane via the "Sacherer formalism". Stabili...
Beam stability is an essential requirement for particle accelerators. Longitudinal coupled-bunch ins...
The evolution of the coherent synchrotron frequency for the dipole mode with respect to the incohere...
Solving the dispersion relation for different distribution functions yields different stability boun...
The stability of longitudinal dipole oscillations in Gaussian bunches is studied for different rf wa...
Stability of coherent betatron oscillations of an intense coasting beam in a synchrotron is studied....
Coupled bunch longitudinal stability in the presence of high frequency impedances is considered. A f...
The theory of impedance-induced bunched-beam coherent instabilities is reviewed following Laclare's ...
Observations of single bunch beam–beam coherent modes during dedicated experiments in the LHC are pr...
In circular accelerators, the interaction between the beam and its surroundings is described in term...
In high brightness circular colliders, coherent and incoherent beam dynamics are dominated by beam-b...
An electron bunch circulating in a storage ring constitutes a dynamical system with both longitudina...
In this note coherent instability thresholds are estimated for the SSC and discuss some of the subse...
A large number of collective instability mechanisms act on high-intensity beams. It is necessary ...
Collective effects in the acceleration and storage of particles have recently attracted considerable...
We study the loss of Landau damping for the longitudinal plane via the "Sacherer formalism". Stabili...
Beam stability is an essential requirement for particle accelerators. Longitudinal coupled-bunch ins...
The evolution of the coherent synchrotron frequency for the dipole mode with respect to the incohere...
Solving the dispersion relation for different distribution functions yields different stability boun...
The stability of longitudinal dipole oscillations in Gaussian bunches is studied for different rf wa...
Stability of coherent betatron oscillations of an intense coasting beam in a synchrotron is studied....
Coupled bunch longitudinal stability in the presence of high frequency impedances is considered. A f...
The theory of impedance-induced bunched-beam coherent instabilities is reviewed following Laclare's ...
Observations of single bunch beam–beam coherent modes during dedicated experiments in the LHC are pr...
In circular accelerators, the interaction between the beam and its surroundings is described in term...
In high brightness circular colliders, coherent and incoherent beam dynamics are dominated by beam-b...
An electron bunch circulating in a storage ring constitutes a dynamical system with both longitudina...
In this note coherent instability thresholds are estimated for the SSC and discuss some of the subse...
A large number of collective instability mechanisms act on high-intensity beams. It is necessary ...
Collective effects in the acceleration and storage of particles have recently attracted considerable...
We study the loss of Landau damping for the longitudinal plane via the "Sacherer formalism". Stabili...
Beam stability is an essential requirement for particle accelerators. Longitudinal coupled-bunch ins...