Disruption limits for linear colliders

Nuclear Instruments and Methods Pub Date : 1981-06-01 DOI:10.1016/0029-554X(81)90733-3
Robert Hollebeek
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引用次数: 51

Abstract

Beam behavior in a single-pass collision device has been investigated using a cloud-in-cells plasma simulation code. The intense electromagnetic fields of the beams produce mutual focusing effects whose strength is determined by the disruption parameter D. The consequent decrease in the beam radii causes an increase in the luminosity of a single collision. The dependences of the beam behavior on beam profiles and current density are described. The beam behavior is stable for several plasma oscillations and indicates that high luminosity can be achieved in single-pass collision devices by using intense beams.

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线性对撞机的破坏极限
使用单元内云等离子体模拟代码研究了单通道碰撞装置中的光束行为。光束的强电磁场产生相互聚焦效应,其强度由干扰参数d决定,由此导致的光束半径的减小导致单次碰撞的光度增加。描述了光束特性与光束轮廓和电流密度的关系。在多次等离子体振荡中,光束行为是稳定的,这表明使用强光束可以在单次碰撞装置中获得高亮度。
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Nuclear Instruments and Methods
Nuclear Instruments and Methods
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