The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It incorporates single- and multi-bunch effects, static and dynamic imperfections. It has an interface based on both Tcl/Tk and Octave to provide maximum flexibility and easy programming of complex scenarios. Recently, new functionalities have been added to expand its simulation and tuning capabilities, such as: tools to perform beam-based alignment of non-linear optical systems, higher order imperfections in magnets, better tools for integrated feedback loops. Moreover, self-contained frameworks have been created to ease the simulation of CLIC Drive Beam, CLIC Main Beam, and other existing electron machines such as CTF3 and FACET
We present the current status of the beam tracking simulations of the Compact Linear Collider (CLIC)...
The LHeC study aims at delivering an electron beam for collision with the LHC proton beam. The curre...
This presentation considers the performance of the CLIC Beam Delivery System studied with two tracki...
The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It i...
The tracking code PLACET[1] simulates beam transport and orbit correction in linear colliders, from ...
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...
The tracking code Placet has recently undergone several improvements. A redesign of its internal dat...
Integrated simulations are important to assess the reliability of the luminosity performance of the ...
The LHeC and the CLIC Drive Beam share not only the high-current beams that make them prone to show ...
In linear accelerators, misalignments of the machine elements can cause considerable emittance growt...
Many good tracking tools are available for simulations for linear accelerators. However, several sim...
Efforts have been taken to enable the simulation of recirculating machines in PLACET. The new versio...
In this benchmarking study, two contemporary codes, DIMAD and PLACET, are compared. We consider the ...
In the Compact Linear Collider (CLIC), the 30 GHz RF-power used to accelerate the main beam will be ...
We present the current status of the beam tracking simulations of the Compact Linear Collider (CLIC)...
The LHeC study aims at delivering an electron beam for collision with the LHC proton beam. The curre...
This presentation considers the performance of the CLIC Beam Delivery System studied with two tracki...
The tracking code PLACET simulates beam transport and orbit corrections in linear accelerators. It i...
The tracking code PLACET[1] simulates beam transport and orbit correction in linear colliders, from ...
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...
The tracking code Placet has recently undergone several improvements. A redesign of its internal dat...
Integrated simulations are important to assess the reliability of the luminosity performance of the ...
The LHeC and the CLIC Drive Beam share not only the high-current beams that make them prone to show ...
In linear accelerators, misalignments of the machine elements can cause considerable emittance growt...
Many good tracking tools are available for simulations for linear accelerators. However, several sim...
Efforts have been taken to enable the simulation of recirculating machines in PLACET. The new versio...
In this benchmarking study, two contemporary codes, DIMAD and PLACET, are compared. We consider the ...
In the Compact Linear Collider (CLIC), the 30 GHz RF-power used to accelerate the main beam will be ...
We present the current status of the beam tracking simulations of the Compact Linear Collider (CLIC)...
The LHeC study aims at delivering an electron beam for collision with the LHC proton beam. The curre...
This presentation considers the performance of the CLIC Beam Delivery System studied with two tracki...