A new beam-tracking code using a 3D electro-magnetic field map of a linac is being developed. In this code, beam dynamics including non-linear and dipole effects can be easily estimated based on simulated field maps provided by commercial 3D analysis software. To verify the code, we manufactured an IH-linac and acceleration test of the linac was carried out with proton beam. The simulated results were compared with the tested acceleration performances.Particle Accelerator Conference 0
RF-Track is a novel tracking code developed at CERN for the optimization of low-energy ion linacs in...
In the European framework “High Intensity Pulsed Proton Injector” (HIPPI), the 3D linac code compari...
A 230 MeV proton LINAC system for medical applications is being developed and commissioned for the L...
In linear accelerators, misalignments of the machine elements can cause considerable emittance growt...
The interaction of charged beams with the surrounding accelerating structures requires a thorough in...
A new linear accelerator system, called the SSC-Linac injector, is being designed at HIRFL (the heav...
A modern linear accelerator of ions is a long chain of different accelerating-focusing structures. T...
A new linear accelerator system, called the SSC-Linac injector, is being designed at HIRFL (the heav...
The vertical RMS spot sizes at the interaction point of linear colliders are in the 1 nm to 5 nm ran...
The beam dynamics code DYNAC was benchmarked using the European Spallation Source (ESS) Proton Linac...
The LANA computer code (Linear Accelerators Numerical Analysis) has been modified in order to study ...
The design and operation support of hadron (proton and heavy-ion) linear accelerators require substa...
We manufactured an IH linac with Alternating Phase Focusing as a new high efficiency cavity for a me...
The new ray-tracing code TRACK originally developed to fulfill the special requirements of the RIA a...
Beam Delivery Simulation (BDSIM) is a particle tracking code that simulates the passage of particles...
RF-Track is a novel tracking code developed at CERN for the optimization of low-energy ion linacs in...
In the European framework “High Intensity Pulsed Proton Injector” (HIPPI), the 3D linac code compari...
A 230 MeV proton LINAC system for medical applications is being developed and commissioned for the L...
In linear accelerators, misalignments of the machine elements can cause considerable emittance growt...
The interaction of charged beams with the surrounding accelerating structures requires a thorough in...
A new linear accelerator system, called the SSC-Linac injector, is being designed at HIRFL (the heav...
A modern linear accelerator of ions is a long chain of different accelerating-focusing structures. T...
A new linear accelerator system, called the SSC-Linac injector, is being designed at HIRFL (the heav...
The vertical RMS spot sizes at the interaction point of linear colliders are in the 1 nm to 5 nm ran...
The beam dynamics code DYNAC was benchmarked using the European Spallation Source (ESS) Proton Linac...
The LANA computer code (Linear Accelerators Numerical Analysis) has been modified in order to study ...
The design and operation support of hadron (proton and heavy-ion) linear accelerators require substa...
We manufactured an IH linac with Alternating Phase Focusing as a new high efficiency cavity for a me...
The new ray-tracing code TRACK originally developed to fulfill the special requirements of the RIA a...
Beam Delivery Simulation (BDSIM) is a particle tracking code that simulates the passage of particles...
RF-Track is a novel tracking code developed at CERN for the optimization of low-energy ion linacs in...
In the European framework “High Intensity Pulsed Proton Injector” (HIPPI), the 3D linac code compari...
A 230 MeV proton LINAC system for medical applications is being developed and commissioned for the L...