Luminosity upgrades for the SLC

P. Raimondi, M. Breidenbach, J. Clendenin, F. Decker, M. Minty, N. Phinney, K. Skarpass, T. Usher, M. Woodley
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引用次数: 3

Abstract

Recent performance improvements at the SLAC Linear Collider (SLC) have led to a proposal to further increase the luminosity up to a factor of four through a series of modest hardware upgrades. New final focus optics introduced in 1997 combined with permanent magnet octupoles have reduced the contribution to the final beam size due to higher order aberrations. The minimum betas achievable at the IP are presently limited by the increase in detector backgrounds as the beam is focused more strongly. By moving the final quadrupoles closer to the interaction point (IP), one can reduce the synchrotron radiation background while decreasing the IP betas. Other upgrades include increasing the bending radius in the final focus to minimize emittance dilutions due to synchrotron radiation, a fast feedforward from the linac to the final focus to cancel trajectory jitter, and a change in the horizontal damping ring partition number to reduce the emittance of the extracted beam. With these upgrades, the expected disruption enhancement should be 2.4.
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SLC的亮度升级
SLAC线性对撞机(SLC)最近的性能改进导致了一项建议,通过一系列适度的硬件升级,进一步将亮度提高到四倍。1997年引入的新型终焦光学与永磁八极相结合,由于高阶像差,减少了对最终光束尺寸的贡献。目前,由于光束聚焦更强,探测器背景的增加限制了在IP上可以达到的最小贝塔值。通过将最后四极移近相互作用点(IP),可以减少同步辐射背景,同时降低IP β。其他升级包括增加最终焦点的弯曲半径,以最大限度地减少同步辐射造成的发射度稀释,从直线加速器到最终焦点的快速前馈,以消除轨迹抖动,以及改变水平阻尼环分区数,以降低提取光束的发射度。通过这些升级,预期的中断增强应该是2.4。
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