Theory of particle beams transport over curved plasma-discharge capillaries

IF 1.5 3区物理与天体物理 Q3 PHYSICS, NUCLEAR Physical Review Accelerators and Beams Pub Date : 2024-09-13 DOI:10.1103/physrevaccelbeams.27.091301

A. Frazzitta, R. Pompili, A. R. Rossi

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Abstract

We present a new approach that demonstrates the deflection and guiding of relativistic electron beams over curved paths by means of the magnetic field generated in a plasma-discharge capillary. The active bending plasma (ABP) represents a promising solution that has been recently demonstrated with a proof of principle experiment. An ABP device consists of a curved capillary where large discharges (of the order of kA) are propagated in a plasma channel. Unlike conventional bending magnets, in which the field is constant over the bending plane, in the ABP, the azimuthal magnetic field generated by the discharge grows with the distance from the capillary axis. This features makes the device less affected by the beam chromatic dispersion so that it can be used to efficiently guide particle beams with non-negligible energy spreads. The study we present in the following aims to provide a theoretical basis of the main ABP features by presenting an analytical description of a single-particle motion and rms beam dynamics. The retrieved relationships are verified by means of numerical simulations and provide the theoretical matrix formalism needed to completely characterize such a new transport device.

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粒子束在弯曲等离子体放电毛细管上的传输理论

我们提出了一种新方法，利用等离子体放电毛细管中产生的磁场来偏转和引导相对论电子束通过弯曲路径。主动弯曲等离子体（ABP）是一种很有前途的解决方案，最近的原理验证实验证明了这一点。ABP 设备由一个弯曲的毛细管组成，在等离子通道中传播大放电（kA 量级）。传统的弯曲磁体在弯曲平面上的磁场是恒定的，而 ABP 与之不同，放电产生的方位磁场随着与毛细管轴线距离的增加而增加。这一特点使得该装置受光束色散的影响较小，因此可用于有效引导具有不可忽略能量散布的粒子束。下面的研究旨在通过对单粒子运动和均方根光束动力学的分析描述，为 ABP 的主要特征提供理论依据。检索到的关系通过数值模拟进行了验证，并提供了完整描述这种新型传输设备所需的理论矩阵形式。

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来源期刊

Physical Review Accelerators and Beams Physics and Astronomy-Surfaces and Interfaces

CiteScore

3.90

自引率

23.50%

发文量

158

审稿时长

23 weeks

期刊介绍： Physical Review Special Topics - Accelerators and Beams (PRST-AB) is a peer-reviewed, purely electronic journal, distributed without charge to readers and funded by sponsors from national and international laboratories and other partners. The articles are published by the American Physical Society under the terms of the Creative Commons Attribution 3.0 License. It covers the full range of accelerator science and technology; subsystem and component technologies; beam dynamics; accelerator applications; and design, operation, and improvement of accelerators used in science and industry. This includes accelerators for high-energy and nuclear physics, synchrotron-radiation production, spallation neutron sources, medical therapy, and intense-beam applications.