The authors have performed a detailed study of the power losses in the post-collision extraction line of a TeV e{sup +}e{sup -} collider with a crossing angle of 20 mrad at the interaction point. Five cases were considered: four luminosity configurations for ILC and one for CLIC. For all of them, the strong beam-beam effects at the interaction point lead to an emittance growth for the outgoing beam, as well as to the production of beamstrahlung photons and e{sup +}e{sup -} coherent pairs. The power losses along the extraction line, which are due to energy deposition by a fraction of the disrupted beam, of the beamstrahlung photons and of the coherent pairs, were estimated in the case of ideal collisions, as well as with a vertical position ...
For removal of disrupted beams at the ILC linear e+e- collider it is desirable to collide beams at s...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
The 1.5 TeV CLIC beams, with a total power of 14 MW per beam, are disrupted at the interaction point...
In this paper, we perform a detailed study of the power losses along the postcollision extraction li...
Strong beam-beam effects at the interaction point of a high-energy e+ e- linear collider such as CLI...
One of the two ILC Interaction Regions will have a large horizontal crossing angle which would allow...
One of the two ILC Interaction Regions will have a large horizontal crossing angle which would allow...
Strong beam-beam effects at the interaction point of a high-energy e+e- linear collider such as the ...
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...
Groupe ILCAn interaction region (IR) with head-on collisions is considered as an alternative to the ...
The studies of the ILC extraction line design have been carried out by the SLAC-BNL-UK-France task f...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
A study of beam distributions for 1 TeV center-of-mass collision energy at the ILC is presented for ...
An interaction region (IR) with head-on collisions is considered as an alternative to the baseline c...
For removal of disrupted beams at the ILC linear e+e- collider it is desirable to collide beams at s...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
The 1.5 TeV CLIC beams, with a total power of 14 MW per beam, are disrupted at the interaction point...
In this paper, we perform a detailed study of the power losses along the postcollision extraction li...
Strong beam-beam effects at the interaction point of a high-energy e+ e- linear collider such as CLI...
One of the two ILC Interaction Regions will have a large horizontal crossing angle which would allow...
One of the two ILC Interaction Regions will have a large horizontal crossing angle which would allow...
Strong beam-beam effects at the interaction point of a high-energy e+e- linear collider such as the ...
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...
Groupe ILCAn interaction region (IR) with head-on collisions is considered as an alternative to the ...
The studies of the ILC extraction line design have been carried out by the SLAC-BNL-UK-France task f...
The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupte...
A study of beam distributions for 1 TeV center-of-mass collision energy at the ILC is presented for ...
An interaction region (IR) with head-on collisions is considered as an alternative to the baseline c...
For removal of disrupted beams at the ILC linear e+e- collider it is desirable to collide beams at s...
The CLIC beam delivery system focuses 1.5~TeV electron and positron beams to a nanometre-sized cross...
The 1.5 TeV CLIC beams, with a total power of 14 MW per beam, are disrupted at the interaction point...