The next generation of linear colliders will require more stringent alignment tolerances than those for the SLC with regard to the accelerating structures, quadrupoles, and beam position monitors. New techniques must be developed to achieve these tolerances. A combination of mechanical-electrical and beam-based methods will likely be needed
The alignment of the next generation of linear accelerators will be much more critical than that of ...
In order to realize the high luminosity in a future linear collider, it will be essential to squeeze...
For the next generation of Linear Colliders (LC) the precision alignment of accelerator com-ponents ...
Abstract The next generation of linear colliders will require alignment accuracies and stabilities o...
The alignment tolerance of accelerating structures is estimated by tracking simulations. Both single...
For future linear colliders, very low emittance beams will be required to achieve high luminosity. T...
Leading accelerator laboratories mount serious efforts in alignment and vibration studies concerning...
The Final Focus Test Beam was conceived as a technological stepping stone on the way to the next lin...
The Final Focus Test Beam (FFTB) was conceived as a technological stepping stone on the way to the n...
The first results of the experiment on the beam-based adaptive alignment of the magnetic elements of...
The first results of the experiment on the beam-based adaptive alignment of the magnetic elements of...
Beam-based alignment of quadrupoles by variation of quadrupole strength is a widely used technique i...
The main obstacle to emittance preservation in the main linac of a linear collider is the alignment ...
This thesis describes a design specification for supporting and alignment systems of a linear partic...
For the next generation of Linear Colliders (LC) the precision alignment of accelerator com-ponents ...
The alignment of the next generation of linear accelerators will be much more critical than that of ...
In order to realize the high luminosity in a future linear collider, it will be essential to squeeze...
For the next generation of Linear Colliders (LC) the precision alignment of accelerator com-ponents ...
Abstract The next generation of linear colliders will require alignment accuracies and stabilities o...
The alignment tolerance of accelerating structures is estimated by tracking simulations. Both single...
For future linear colliders, very low emittance beams will be required to achieve high luminosity. T...
Leading accelerator laboratories mount serious efforts in alignment and vibration studies concerning...
The Final Focus Test Beam was conceived as a technological stepping stone on the way to the next lin...
The Final Focus Test Beam (FFTB) was conceived as a technological stepping stone on the way to the n...
The first results of the experiment on the beam-based adaptive alignment of the magnetic elements of...
The first results of the experiment on the beam-based adaptive alignment of the magnetic elements of...
Beam-based alignment of quadrupoles by variation of quadrupole strength is a widely used technique i...
The main obstacle to emittance preservation in the main linac of a linear collider is the alignment ...
This thesis describes a design specification for supporting and alignment systems of a linear partic...
For the next generation of Linear Colliders (LC) the precision alignment of accelerator com-ponents ...
The alignment of the next generation of linear accelerators will be much more critical than that of ...
In order to realize the high luminosity in a future linear collider, it will be essential to squeeze...
For the next generation of Linear Colliders (LC) the precision alignment of accelerator com-ponents ...
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