Add to ORKGThe lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of relativistic beams, with a focus on traveling wave acceleration. These include the concepts of phase velocity and synchronism with the beam, group velocity, periodically loaded accelerating structures, the Brillouin diagram and the fundamental theorem of beam loading derived from an energy balance point of view
Radio-frequency (RF) systems in particle accelerators are usually designed to transfer energy to the...
The lecture reviews general concepts of diagnostics for beam intensity diagnostics, beam transverse ...
Modern particle accelerators use electromagnetic energy at RF frequencies to accelerate particles. T...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
RF cavities are not only used to accelerate particle beams but they also kick beams or manipulate pa...
RF cavities are not only used to accelerate particle beams but they also kick beams or manipulate pa...
The lectures treat longitudinal beam tracking in synchrotrons. After introducing the basics of creat...
The lectures treat longitudinal beam tracking in synchrotrons. After introducing the basics of creat...
This talk gives a first introduction of longitudinal beam dynamics for both linear and circular acce...
The lecture reviews general concepts of beam-induced electromagnetic fields in accelerator devices. ...
We discuss recent progress in Terahertz and optical radiation generation and its use in acceleration...
Many applications require RF cavities that deflect the beam transversely, where the field needs to v...
We reviewed the techniques of transport of high-power radiofrequency power from a RF power source to...
Beyond increasing the energy of charged particles, RF frequency systems in accelerators allow to con...
Beyond increasing the energy of charged particles, RF frequency systems in accelerators allow to con...
Radio-frequency (RF) systems in particle accelerators are usually designed to transfer energy to the...
The lecture reviews general concepts of diagnostics for beam intensity diagnostics, beam transverse ...
Modern particle accelerators use electromagnetic energy at RF frequencies to accelerate particles. T...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
RF cavities are not only used to accelerate particle beams but they also kick beams or manipulate pa...
RF cavities are not only used to accelerate particle beams but they also kick beams or manipulate pa...
The lectures treat longitudinal beam tracking in synchrotrons. After introducing the basics of creat...
The lectures treat longitudinal beam tracking in synchrotrons. After introducing the basics of creat...
This talk gives a first introduction of longitudinal beam dynamics for both linear and circular acce...
The lecture reviews general concepts of beam-induced electromagnetic fields in accelerator devices. ...
We discuss recent progress in Terahertz and optical radiation generation and its use in acceleration...
Many applications require RF cavities that deflect the beam transversely, where the field needs to v...
We reviewed the techniques of transport of high-power radiofrequency power from a RF power source to...
Beyond increasing the energy of charged particles, RF frequency systems in accelerators allow to con...
Beyond increasing the energy of charged particles, RF frequency systems in accelerators allow to con...
Radio-frequency (RF) systems in particle accelerators are usually designed to transfer energy to the...
The lecture reviews general concepts of diagnostics for beam intensity diagnostics, beam transverse ...
Modern particle accelerators use electromagnetic energy at RF frequencies to accelerate particles. T...