Add to ORKGMisalignments in the main linac of future linear colliders can lead to significant emittance growth. Beam-based alignment algorithms, such as Dispersion Free Steering (DFS), are necessary to mitigate these effects. We study how to use the Bunch Compressor to create the off-energy beams necessary for DFS and discuss the effectiveness of this method
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
Compensation of multi-bunch beam loading is of great importance in the main linac of the Compact Lin...
Control of beam emittance is a key issue in the design of future linear colliders. Results depend cl...
In the main linac of the compact linear collider (CLIC) the beam induced wakefield and dispersive ef...
The Dispersion Matched Steering (DMS) method is studied in detail in the context of a curved main li...
The first stage of the CLIC is proposed to be at 380 GeV. So the Ring To Main Linac (RTML), which tr...
The installation of elements in the main linac of future linear colliders can only be done with a li...
Aligning the CLIC Beam Delivery System faces two major challenges, the tight tolerances for the emit...
The luminosity that can be achieved in a linear collider strongly depends on the vertical emittance ...
The standard prescription for NLC main linac steering assumes that the RMS offset between a quad’s m...
The latest version of the CLIC parameters implies the acceleration in the main linac of a train of b...
The revised list of parameters of the CLIC study according to the scaling laws includes a very short...
The latest version of the CLIC parameters implies the acceleration in the main linac of a train of b...
The revised list of parameters of the CLIC study according to the scaling laws includes a very short...
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
Compensation of multi-bunch beam loading is of great importance in the main linac of the Compact Lin...
Control of beam emittance is a key issue in the design of future linear colliders. Results depend cl...
In the main linac of the compact linear collider (CLIC) the beam induced wakefield and dispersive ef...
The Dispersion Matched Steering (DMS) method is studied in detail in the context of a curved main li...
The first stage of the CLIC is proposed to be at 380 GeV. So the Ring To Main Linac (RTML), which tr...
The installation of elements in the main linac of future linear colliders can only be done with a li...
Aligning the CLIC Beam Delivery System faces two major challenges, the tight tolerances for the emit...
The luminosity that can be achieved in a linear collider strongly depends on the vertical emittance ...
The standard prescription for NLC main linac steering assumes that the RMS offset between a quad’s m...
The latest version of the CLIC parameters implies the acceleration in the main linac of a train of b...
The revised list of parameters of the CLIC study according to the scaling laws includes a very short...
The latest version of the CLIC parameters implies the acceleration in the main linac of a train of b...
The revised list of parameters of the CLIC study according to the scaling laws includes a very short...
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
In the Compact Linear Collider (CLIC) a high-current, low-energy beam will be decelerated in a chain...
Compensation of multi-bunch beam loading is of great importance in the main linac of the Compact Lin...