Ruihu Zhu, Chris Rogers, Jiancheng Yang, He Zhao, Cheng Guo, Jiangdong Li
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Performance and tolerance study of the rectilinear cooling channel for a muon collider
The muon collider has the potential to be a powerful tool for the exploration
of frontiers in particle physics. In order to reach high luminosity, the 6D
emittance of the muon beam needs to be reduced by several orders of magnitude.
The cooling process for a muon collider involves two parts; initial
six-dimensional cooling and final transverse cooling. This paper focuses on the
former and proposes a conceptual design of the rectilinear cooling channel with
additional dipole magnets. In this paper, we first introduce a general method
for designing the rectilinear cooling channel. Subsequently, we apply this
method to develop two rectilinear cooling channels before and after a bunch
merging system. Furthermore, we investigate the impact on cooling performance
by employing $\pi$-mode RF cavities and considering the effect of errors in the
magnetic and RF fields.
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