Strong beam-beam effects at the interaction point of a high-energy e+e − linear collider such as CLIC lead to an emittance growth for the outgoing beams, as well as to the production of beamstrahlung photons and e+e − coherent pairs. We present a conceptual design of the post-collision line for CLIC at 3 TeV, which separates the various compo-nents of the outgoing beam in a vertical magnetic chicane and then transports them to their respective dump
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The CLIC post-collision line is designed to transport the un-collided beams and the products of the ...
After the interaction point, the 1.5 TeV, 14MW CLIC electron/positron beams must be transported safe...
Strong beam-beam effects at the interaction point of a high-energy linear collider such as CLIC lead...
Strong beam-beam effects at the interaction point of a high-energy e+e- linear collider such as the ...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
The 1.5 TeV CLIC beams, with a total power of 14 MW per beam, are disrupted at the interaction point...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14MWper beam, are disrupted ...
As part of the Post-Collision Diagnostic Lattice task of the ILPS work-package of EuroTeV, we discus...
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 e+ e- linear collider such as CLI...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
In this paper, we perform a detailed study of the power losses along the postcollision extraction li...
The CLIC post collision line is designed to transport the un-collided beams and the products of the ...
In future linear e+ e- colliders, the beam-beam interaction will strongly affect the experimental co...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The CLIC post-collision line is designed to transport the un-collided beams and the products of the ...
After the interaction point, the 1.5 TeV, 14MW CLIC electron/positron beams must be transported safe...
Strong beam-beam effects at the interaction point of a high-energy linear collider such as CLIC lead...
Strong beam-beam effects at the interaction point of a high-energy e+e- linear collider such as the ...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
The 1.5 TeV CLIC beams, with a total power of 14 MW per beam, are disrupted at the interaction point...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14MWper beam, are disrupted ...
As part of the Post-Collision Diagnostic Lattice task of the ILPS work-package of EuroTeV, we discus...
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 e+ e- linear collider such as CLI...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
In this paper, we perform a detailed study of the power losses along the postcollision extraction li...
The CLIC post collision line is designed to transport the un-collided beams and the products of the ...
In future linear e+ e- colliders, the beam-beam interaction will strongly affect the experimental co...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
The CLIC post-collision line is designed to transport the un-collided beams and the products of the ...
After the interaction point, the 1.5 TeV, 14MW CLIC electron/positron beams must be transported safe...