Effects of Plasma Temperature in the Blowout Regime for Plasma Accelerators

Q3 Physics and Astronomy Instruments Pub Date : 2023-10-31 DOI:10.3390/instruments7040037
Gevy Jiawei Cao
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Abstract

Research on plasma accelerators for high-energy colliders has rapidly progressed over the past few decades. Plasma acceleration with a high repetition rate will enable higher collider luminosity, but results in a heated plasma. This study investigates two phenomena—beam breakup instability and ion motion—in the nonlinear blowout regime in plasma accelerators and how the plasma temperature affects them. It was found that increasing the plasma temperature enhances the beam breakup instability by reducing the blowout radius while suppressing the on-axis ion-density spike caused by ion motion. This imposes a stringent demand on alignment tolerances, but it offers promising prospects for mitigating ion motion.
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等离子体加速器井喷状态下等离子体温度的影响
在过去的几十年里,高能对撞机的等离子体加速器的研究取得了迅速的进展。高重复率的等离子体加速将使对撞机亮度更高,但会导致等离子体加热。本文研究了等离子体加速器非线性井喷状态下的两种现象——束流破裂不稳定性和离子运动,以及等离子体温度对它们的影响。研究发现,提高等离子体温度可以减小喷散半径,同时抑制离子运动引起的轴上离子密度尖峰,从而增强束流破裂的不稳定性。这对校准公差提出了严格的要求,但它为减轻离子运动提供了有希望的前景。
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来源期刊
Instruments
Instruments Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
0.00%
发文量
70
审稿时长
11 weeks
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