高能质子束的新方法

J. Eldred
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引用次数: 3

摘要

在费米实验室长基线中微子项目中可能实现的束流功率激发了对费米实验室质子复合物的快速循环同步加速器(RCS)强度升级的重新设计和优化工作。我们研究了对费米实验室RCS设计具有高影响潜力的技术发展领域-低损耗滑动堆叠,先进的中微子目标研发,激光剥离H$^{-}$注入,快速倾斜的超级铁磁体,非线性可积光学,电子透镜器件和下一代光晕监视器。简要介绍了费米实验室加速器科学与技术(FAST)设施,后三种技术将在这里进行全面的光束测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Approaches to High-Power Proton Beams
The potentially realizable beam power at the Fermilab long-baseline neutrino program has motivated a reinvigorated design and optimization effort for a rapid-cycling synchrotron (RCS) intensity upgrade of the Fermilab proton complex. We examine areas of technological development with the potential for high-impact on the Fermilab RCS design - low-loss slip-stacking, advanced neutrino-target R\&D, laser-stripping H$^{-}$ injection, fast-ramping super-ferric magnets, nonlinear integrable optics, electron lens devices, and next-generation halo monitors. A brief overview is given on the Fermilab Accelerator Science \& Technology (FAST) facility, where the latter three technologies will undergo comprehensive beam tests.
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