碳纳米管阵列超高梯度加速度研究。

arXiv: Accelerator Physics Pub Date : 2018-05-01 DOI:10.18429/JACoW-IPAC2018-TUXGBE2

J. Resta-López, Alexandra Alexandrova, Y. Li, V. Rodin, Y. Wei, Carsten Welsch, Guoxing Xia, Yuan Zhao

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引用次数: 3

摘要

以前提出的带电粒子的固体尾流场加速可以获得1-10 TeV/m量级的极高梯度。近年来，使用金属或碳纳米管结构的可能性引起了新的关注。碳纳米管的使用将使我们能够加速和引导粒子克服使用天然晶体的许多限制，例如通道孔径限制和热机械稳健性问题。在本文中，我们提出了一个使用碳纳米管阵列的潜在概念验证实验，假设已有的加速器设施(如CERN的CLEAR和Daresbury的CLARA)的光束参数和条件。采用基于多空心等离子体的二维粒子池(PIC)模型研究了碳纳米管阵列的加速性能。讨论了最佳实验光束参数和系统布局。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Study of ultra-high gradient acceleration in carbon nanotube arrays.

Solid-state based wakefield acceleration of charged particles was previously proposed to obtain extremely high gradients on the order of 1-10 TeV/m. In recent years the possibility of using either metallic or carbon nanotube structures is attracting new attention. The use of carbon nanotubes would allow us to accelerate and channel particles overcoming many of the limitations of using natural crystals, e.g. channeling aperture restrictions and thermal-mechanical robustness issues. In this paper, we propose a potential proof of concept experiment using carbon nanotube arrays, assuming the beam parameters and conditions of accelerator facilities already available, such as CLEAR at CERN and CLARA at Daresbury. The acceleration performance of carbon nanotube arrays is investigated by using a 2D Particle-In-Cell (PIC) model based on a multi-hollow plasma. Optimum experimental beam parameters and system layout are discussed.

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arXiv: Accelerator Physics

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