Abstract
Crystalline collimators can potentially considerably improve the cleaning performance of the presently used collimator systems using amorphous collimators. A crystal-based collimation scheme which relies on the channeling particle deflection in bent crystals has been proposed and extensively studied both theoretically and experimentally. However, since the efficiency of particle capture into the channeling regime does not exceed ninety percent, this collimation scheme partly suffers from the same leakage problems as the schemes using amorphous collimators. To improve further the cleaning efficiency of the crystal-based collimation system to meet the requirements of the FCC, we suggest here a double crystal-based collimation scheme, to which the second crystal is introduced to enhance the deflection of the particles escaping the capture to the channeling regime in its first crystal. The application of the effect of multiple volume reflection in one bent crystal and of the same in a sequence of crystals is simulated and compared for different crystal numbers and materials at the energy of 50 TeV. To enhance also the efficiency of use of the first crystal of the suggested double crystal-based scheme, we propose: the method of increase of the probability of particle capture into the channeling regime at the first crystal passage by means of fabrication of a crystal cut and the method of the amplification of nonchanneled particle deflection through the multiple volume reflection in one bent crystal, accompanying the particle channeling by a skew plane. We simulate both of these methods for the 50 TeV FCC energy.
Highlights
The collimation system is of key importance for stable operation of modern high energy storage rings and colliders, for instance for the Large Hadron Collider (LHC) and the future HL-LHC project [1,2]
Thick amorphous collimators are used at the LHC, Relativistic Heavy-Ion Collider (RHIC) and SPS at present
The efficiency of any collimation scheme is limited by the leakage to sensitive equipment
Summary
The collimation system is of key importance for stable operation of modern high energy storage rings and colliders, for instance for the LHC and the future HL-LHC project [1,2]. The point is that a bent crystal can deflect channeling particles by the angles large enough to hit target collimators immediately and with a large impact parameter. Such a collimator scheme, using planar channeling in bent crystals, proposed in [5], has been widely explored in experiments [6,7,8,9,10,11,12,13,14,15]. We suggest to considerably increase the channeling efficiency by application of the crystal cut [29,30] Combination of these two approaches can lead to the further collimation optimization. Each of suggested coherent effects has a potential to considerably increase the efficiency of the crystal-based collimation system
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