欧洲核子研究中心大型强子对撞机重离子晕准直的模拟:基准测量和清洁性能评估

N. Fuster-Martínez, R. Bruce, F. Cerutti, R. de Maria, P. Hermes, A. Lechner, A. Mereghetti, J. Molson, S. Redaelli, E. Skordis, A. Abramov, L. Nevay
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引用次数: 10

摘要

质子和重离子束以前所未有的能量在欧洲核子研究中心大型强子对撞机中碰撞,进行高能实验。大型强子对撞机多级准直系统旨在提供对常规和异常损耗的保护,以减少超导磁体猝灭的风险,并保持实验背景可控。与质子相比,尽管储存的光束能量较低,但重离子的光束准直更具挑战性,因为用重离子清洗的效率要差两个数量级。这是由于光束和准直器之间的相互作用机制不同。离子束在准直器处经历破碎和电磁离解,导致大量非刚性粒子逃离准直系统。这些向外分散的原子核可能会在环周围丢失,最终对可实现的最大存储束流能量施加限制。精确的模拟工具对于理解和控制这些损失至关重要。基于六轨跟踪码和FLUKA蒙特卡罗码的耦合,建立了重离子准直的模拟框架,模拟了重离子与准直材料核之间的电磁和核相互作用。本文介绍了一种新的仿真工具。此外,给出了Sixtrack-FLUKA耦合模拟,并与LHC中Pb离子的测量结果进行了比较。讨论了模拟和测量之间的一致性,并使用结果来理解和优化损耗。利用仿真工具对高亮度LHC准直系统的性能进行了预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulations of heavy-ion halo collimation at the CERN Large Hadron Collider: Benchmark with measurements and cleaning performance evaluation
Protons and heavy-ion beams at unprecedented energies are brought into collisions in the CERN Large Hadron Collider for high-energy experiments. The LHC multi-stage collimation system is designed to provide protection against regular and abnormal losses in order to reduce the risk of quenches of the superconducting magnets as well as keeping background in the experiments under control. Compared to protons, beam collimation in the heavy-ion runs is more challenging despite the lower stored beam energies, because the efficiency of cleaning with heavy ions has been observed to be two orders of magnitude worse. This is due to the differences in the interaction mechanisms between the beams and the collimators. Ion beams experience fragmentation and electromagnetic dissociation at the collimators that result in a substantial flux of off-rigidity particles that escape the collimation system. These out-scattered nuclei might be lost around the ring, eventually imposing a limit on the maximum achievable stored beam energy. Accurate simulation tools are crucial in order to understand and control these losses. A new simulation framework has been developed for heavy-ion collimation based on the coupling of the Sixtrack tracking code and the FLUKA Monte Carlo code that models the electromagnetic and nuclear interactions of the heavy-ions with the nuclei of the collimator material. In this paper, the new simulation tool is described. Furthermore, Sixtrack-FLUKA coupling simulations are presented and compared with measurements done with Pb ions in the LHC. The agreement between simulations and measurements is discussed and the results are used to understand and optimise losses. The simulation tool is also applied to predict the performance of the collimation system for the High-Luminosity LHC.
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