Add to ORKGWith the shutdown of the Tevatron, the T-980 crystal collimation experiment at Fermilab has been successfully completed. Results of dedicated beam studies in May 2011 are described in this paper. For these studies, two multi-strip crystals were installed in the vertical goniometer and an O-shaped crystal installed in a horizontal goniometer. A two-plane CMS pixel detector was also installed in order to enhance the experiment with the capability to image the profile of crystal channeled or multiple volume reflected beam. The experiment successfully imaged channeled beam from a crystal for 980-GeV protons for the first time. This new enhanced hardware yielded impressive results. The performance and characterization of the crystal...
The T980 crystal collimation experiment is underway at the Tevatron to determine if this technique c...
AbstractAn enhancement to the T-980 bent crystal collimation experiment at the Tevatron has been com...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Abstract The T-980 bent crystal collimation experiment at the Tevatron Abstract The T-980 bent crys...
The T980 crystal collimation experiment is underway at the Tevatron to determine if this technique c...
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 efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficien...
An enhancement to the T-980 bent crystal collimation experiment at the Tevatron has been completed. ...
The T-980 bent crystal collimation experiment at the Tevatron has recently acquired substantial enha...
The T980 crystal collimation experiment is underway at the Tevatron to determine if this technique c...
AbstractAn enhancement to the T-980 bent crystal collimation experiment at the Tevatron has been com...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...
Abstract The T-980 bent crystal collimation experiment at the Tevatron Abstract The T-980 bent crys...
The T980 crystal collimation experiment is underway at the Tevatron to determine if this technique c...
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 efficiency...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficien...
An enhancement to the T-980 bent crystal collimation experiment at the Tevatron has been completed. ...
The T-980 bent crystal collimation experiment at the Tevatron has recently acquired substantial enha...
The T980 crystal collimation experiment is underway at the Tevatron to determine if this technique c...
AbstractAn enhancement to the T-980 bent crystal collimation experiment at the Tevatron has been com...
Bent-crystal channeling is a technique with a potential to increase beam-halo collimation efficiency...