Simulating electron clouds in high-current ion accelerators with solenoid focusing

W.M. Sharp; D.P. Grote; R.H. Cohen; A. Friedman; J.-L. Vay; P.A. Seidl; P.K. Roy; J.E. Coleman; J. Armijo; I. Haber

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Simulating electron clouds in high-current ion accelerators with solenoid focusing

机译：利用螺线管聚焦模拟大电流离子加速器中的电子云

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Contamination from electrons is a concern for the solenoid-focused ion accelerators being developed for experiments in high-energy density physics (HEDP). These electrons are produced directly by beam ions hitting lattice elements and intercepting diagnostics, or indirectly by ionization of desorbed neutral gas, and they are believed responsible for time dependence of the beam radius, emittance, and focal distance seen on the solenoid transport experiment (STX) at Lawrence Berkeley National Laboratory. The electrostatic particle-in-cell code WARP has been upgraded to include the physics needed to simulate electron-cloud phenomena. We present preliminary self-consistent simulations of STX experiments suggesting that the observed time dependence of the beam stems from a complicated interaction of beam ions, desorbed neutrals, and electrons.

机译：对于用于高能密度物理（HEDP）实验的螺线管聚焦离子加速器，电子污染是一个问题。这些电子是由束离子撞击晶格元素并拦截诊断程序直接产生的，或者由解吸的中性气体的电离间接产生的，据信它们与束流半径，发射率和螺线管传输实验（STX）上的焦距的时间相关性）在劳伦斯伯克利国家实验室。单元内静电粒子代码WARP已升级，包括模拟电子云现象所需的物理原理。我们目前对STX实验进行初步的自洽模拟，表明所观察到的束的时间依赖性源于束离子，解吸的中性物和电子的复杂相互作用。

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《Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment》 |2007年第2期|p.146-149|共4页
作者
W.M. Sharp; D.P. Grote; R.H. Cohen; A. Friedman; J.-L. Vay; P.A. Seidl; P.K. Roy; J.E. Coleman; J. Armijo; I. Haber;
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Lawrence Livermore National Laboratory, Livermore, CA, USA;

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正文语种 eng
中图分类计量学;原子能技术;原子核物理学、高能物理学;
关键词
electron-cloud; heavy-ion; accelerators; particle-in-cell simulation; monte-carlo model;

机译：电子云;重离子;促进剂;粒子模拟;蒙特卡洛模型;

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Simulating electron clouds in high-current ion accelerators with solenoid focusing

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