In this benchmarking study, two contemporary codes, DIMAD and PLACET, are compared. We consider the 20 mrad post-collision line of the Compact Linear Collider (CLIC) and perform tracking studies of heavily disrupted post-collision electron beams. We successfully find that the two codes provide an equivalent description of the beam transport from the interaction point to the final dump
The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It i...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The Compact Linear Collider (CLIC) is a potential next-generation particle collider, in which electr...
The study of beam transport is of central importance to the design and performance assessment of mod...
The CLIC beam delivery system focuses 1.5 TeV electron and positron beams to a nanometre-sized cross...
Strong beam-beam effects at the interaction point of a high-energy linear collider such as CLIC lead...
The study of beam transport is of central importance to the design and performance assessment of mod...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14MWper beam, are disrupted ...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
As part of the Post-Collision Diagnostic Lattice task of the ILPS work-package of EuroTeV, we discus...
The vertical RMS spot sizes at the interaction point of linear colliders are in the 1 nm to 5 nm ran...
The program PLACET is used to simulate transverse and longitudinal beam effects in the main linac, t...
PLACET[1] is a program used to simulate the dynamics, including wakefields, of a beam in the main ac...
A collimation system performance study includes several types of computations performed by different...
The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It i...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The Compact Linear Collider (CLIC) is a potential next-generation particle collider, in which electr...
The study of beam transport is of central importance to the design and performance assessment of mod...
The CLIC beam delivery system focuses 1.5 TeV electron and positron beams to a nanometre-sized cross...
Strong beam-beam effects at the interaction point of a high-energy linear collider such as CLIC lead...
The study of beam transport is of central importance to the design and performance assessment of mod...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14MWper beam, are disrupted ...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
As part of the Post-Collision Diagnostic Lattice task of the ILPS work-package of EuroTeV, we discus...
The vertical RMS spot sizes at the interaction point of linear colliders are in the 1 nm to 5 nm ran...
The program PLACET is used to simulate transverse and longitudinal beam effects in the main linac, t...
PLACET[1] is a program used to simulate the dynamics, including wakefields, of a beam in the main ac...
A collimation system performance study includes several types of computations performed by different...
The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It i...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The Compact Linear Collider (CLIC) is a potential next-generation particle collider, in which electr...