2010
DOI: 10.1016/j.physletb.2010.07.023
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First results on the SPS beam collimation with bent crystals

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Cited by 114 publications
(74 citation statements)
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“…The simulations do not take into account the experimental resolution. In the Monte Carlo a particle is considered as escaped from SD if the angle between its momentum and the atomic string exceeds the critical angle for axial channeling the usage of a bent crystal respecting condition A as a passive element in a crystal-based collimation scheme offers not only the advantage of reducing the amount of material of the primary collimator, as already been demonstrated for planar channeling at SPS [25] and, very recently, at LHC [26], but also accomplishes deflection of the whole beam to the same direction through a single pass, an operation which cannot be done via currently used scheme exploiting PC, where multiturn interaction is mandatory. A further advantage of SD, is the reduction of interactions of protons with the nuclei of the crystals as compared to planar case [27], thus reducing the amount of particles in the secondary halo.…”
Section: Theoretical Investigation and Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The simulations do not take into account the experimental resolution. In the Monte Carlo a particle is considered as escaped from SD if the angle between its momentum and the atomic string exceeds the critical angle for axial channeling the usage of a bent crystal respecting condition A as a passive element in a crystal-based collimation scheme offers not only the advantage of reducing the amount of material of the primary collimator, as already been demonstrated for planar channeling at SPS [25] and, very recently, at LHC [26], but also accomplishes deflection of the whole beam to the same direction through a single pass, an operation which cannot be done via currently used scheme exploiting PC, where multiturn interaction is mandatory. A further advantage of SD, is the reduction of interactions of protons with the nuclei of the crystals as compared to planar case [27], thus reducing the amount of particles in the secondary halo.…”
Section: Theoretical Investigation and Discussionmentioning
confidence: 99%
“…The deflection mechanisms involving bound states are axial (AC) and planar (PC) channeling, while over-barrier particles may be deflected by the stochastic mechanism of deflection (SD) [7] caused by multiple scattering with atomic strings (the socalled doughnut scattering) and by volume reflection (VR) from bent crystal planes [8]. In view of applications to beam steering, most of the studies have been focused on the planar cases due to the easier experimental requirements for their implementation [9]. Nevertheless, the exploitation of the axial mechanism of deflection may bring several advantages.…”
Section: Introductionmentioning
confidence: 99%
“…Crystal collimation relies on using bent crystals instead of primary collimators to steer halo particles onto one single absorber, as opposed to the present multi-stage collimation system, which is based on massive amorphous blocks of material to intercept halo particles. Experimental results obtained with proton and lead ion beams at the super proton synchrotron (SPS) [10][11][12][13][14] in the framework of the UA9 experiment are very promising. However they are not considered exhaustive enough to propose a crystal collimation scheme as a baseline for future upgrades.…”
Section: Introductionmentioning
confidence: 99%
“…Various applications of orientational phenomena with crystals have been proposed and investigated such as -beam steering, [15] -extraction and collimation in circular accelerators and [16][17][18][19] a e-mail: enrico.bagli@gmail.com -splitting and focusing of external beams [20].…”
Section: Introductionmentioning
confidence: 99%