An Upgrade Path for the Fermilab Accelerator Complex

R. Ainsworth, J. Dey, J. Eldred, R. Harnik, J. Jarvis, D. Johnson, I. Kourbanis, D. Neuffer, E. Pozdeyev, M. Syphers, A. Valishev, V. Yakovlev, R. Zwaska
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引用次数: 11

Abstract

The completion of the PIP-II project and its superconducting linear accelerator will provide up to 1.2 MW of beam power to the LBNF/DUNE facility for neutrino physics. It will also be able to produce high-power beams directly from the linac that can be used for lower-energy particle physics experiments as well, such as directing beam toward the Muon Campus at Fermilab for example. Any further significant upgrade of the beam power to DUNE, however, will be impeded by the limitations of the present Booster synchrotron at the facility. To increase the power to DUNE by a factor of two would require a new accelerator arrangement to feed the Main Injector that does not include the Booster. In what follows, a path toward upgrading the Fermilab accelerator complex to bring the beam power for DUNE to 2.4 MW is presented, using a new rapid-cycling synchrotron plus an energy upgrade to the PIP-II linac. The path includes the ability to instigate a new lower-energy, very high-power beam delivery system for experiments that can address much of the science program presented by the Booster Replacement Science Working Group. It also allows for the future possibility to go beyond 2.4 MW up to roughly 4 MW from the Main Injector.
费米实验室加速器综合体的升级路径
PIP-II项目及其超导直线加速器的完成将为LBNF/DUNE中微子物理设施提供高达1.2兆瓦的光束功率。它还可以直接从直线加速器产生高能光束,也可以用于低能粒子物理实验,例如将光束引导到费米实验室的μ子校园。然而,光束功率到DUNE的任何进一步的重大升级将受到该设施目前的助推器同步加速器的限制。要将功率提高到DUNE的两倍,就需要一个新的加速器装置来为不包括助推器的主喷射器提供动力。在接下来的内容中,介绍了升级费米实验室加速器复合体的路径,使用新的快速循环同步加速器加上对PIP-II直线加速器的能量升级,将DUNE的光束功率提高到2.4 MW。这条道路包括为实验建立一个新的低能量、非常高功率的光束传输系统的能力,该系统可以解决由助推器更换科学工作组提出的许多科学计划。它还允许未来从主喷射器输出超过2.4 MW的功率,达到大约4 MW。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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