利用电磁透镜修正大型强子对撞机中的长程光束效应

PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268) Pub Date : 2001-07-31 DOI:10.1109/PAC.2001.987147

J. Koutchouk

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引用次数: 46

摘要

大型强子对撞机中的粒子束最多在四个实验点正面碰撞。由于束束间距小，光束在碰撞点的两侧经历了超过100次的“险些”。在这些地方，受四极孔径的限制，横向光束分离在7到13 /spl sigma/范围内。这些“远程”相互作用的非线性部分似乎是模拟中光束爆炸或光束损失的主要机制。可以设计一个简单的远程相互作用的非线性模型。结果表明，用金属丝作为校正透镜，可以局部校正，精度较高。由音轨测量的非线性降低了一个数量级。脉冲校正镜片消除了所谓的吃豆人效应。

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Correction of the long-range beam-beam effect in LHC using electro-magnetic lenses

The beams in LHC collide head-on in at most four experimental points. Due to the small bunch spacing, the beams experience more than one hundred 'near-misses' on either side of the collision points. The transverse beam separation at these places, limited by the quadrupole aperture, is in the range of 7 to 13 /spl sigma/. The non-linear part of these 'long-range' interactions appears to be the dominant mechanism for beam blow-up or beam loss in simulation. A simple non-linear model of the long-range interactions can be devised. It shows that the latter may be locally corrected with good accuracy using wires as correcting lenses. The nonlinearity measured by the tune footprint is reduced by one order of magnitude. Pulsing the correcting lenses cancels the so-called PACMAN effect.

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PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268)

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