Add to ORKGA possibility to improve the Tevatron beam halo scraping using a bent channeling crystal instead of a thin scattering primary collimator is studied. To evaluate the efficiency of the system, realistic simulations have been performed using the CATCH and STRUCT Monte Carlo codes. It is shown that the scraping efficiency can be increased and the accelerator-related backgrounds in the CDF and DØ collider detectors can be reduced by about one order of magnitude. Results on scraping efficiency versus thickness of amorphous layer of the crystal, crystal alignment and its length are presented
Bent crystals have demonstrated potential for use in beam collimation. A process called channeling i...
History of bent crystal applications for steering high energy particles is outlined, from the predic...
Beam collimation in high-energy colliders is customarily carried out by means of massive amorphous a...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficien...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
The crystal-assisted extraction of particles from high-energy proton colliders is discussed. The res...
We present a study in which we propose using a bent crystal and the channeling mechanism for halo co...
Abstract The T-980 bent crystal collimation experiment at the Tevatron Abstract The T-980 bent crys...
Bent crystals have demonstrated potential for use in beam collimation. A process called channeling i...
History of bent crystal applications for steering high energy particles is outlined, from the predic...
Beam collimation in high-energy colliders is customarily carried out by means of massive amorphous a...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficien...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
The crystal-assisted extraction of particles from high-energy proton colliders is discussed. The res...
We present a study in which we propose using a bent crystal and the channeling mechanism for halo co...
Abstract The T-980 bent crystal collimation experiment at the Tevatron Abstract The T-980 bent crys...
Bent crystals have demonstrated potential for use in beam collimation. A process called channeling i...
History of bent crystal applications for steering high energy particles is outlined, from the predic...
Beam collimation in high-energy colliders is customarily carried out by means of massive amorphous a...