Beam dynamics simulation in the linear accelerator used as an injector for the 4th generation Specialized Synchrotron Radiation Source SSRS-4

IF 0.3 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Vestnik Sankt-Peterburgskogo Universiteta Seriya 10 Prikladnaya Matematika Informatika Protsessy Upravleniya Pub Date : 2023-06-02 DOI:10.21638/11702/spbu10.2019.110

I. Ashanin, Yulia D. Kluchevskaia, A. A. Makhoro, Valeria Yu. Mechanikova, O. A. Mosolova, S. Polozov, A. Pronikov, V. Rashchikov

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引用次数: 2

Abstract

At present, a fourth-generation synchrotron radiation source USSR (Synchrotron & Laser), which will the one of the world’s largest scientific centers is being designed in Russia. Its creation will make it possible to carry out experiments to study the structures of a wide range of objects in various disciplines at a qualitatively new level compared to the previous generation of sources. The overall facility layout includes a 6 GeV main storage ring and a linear electron accelerator (linac) at full energy. It is proposed to use one linear accelerator with two RF guns. A RF gun with a photocathode can be used to generate a bunch train for a Free Electron Laser (FEL), a RF gun with a thermionic cathode can be used for injection into a storage ring. Both injectors will operate with the same regular part of the linear accelerator, consisting of 100-120 identical sections. The purposed transverse emittance in the main storage ring will be 50–100 pm.rad. The development of a general linear accelerator scheme in order to minimize the beam energy spread and the output transverse emittance, the optimization of the geometric and electrodynamics parameters of the accelerating structures, and the beam dynamics analysis in this linear accelerator will be discussed in the article. The beam dynamics simulation was performed using the BEAMDULAC code developed at the Department of Electrophysical Facilities of the National Research Nuclear University MEPhI.

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第四代专用同步辐射源SSRS-4注入器直线加速器束流动力学模拟

目前，俄罗斯正在设计第四代同步加速器辐射源苏联(同步加速器和激光)，这将是世界上最大的科学中心之一。与上一代的源相比，它的创建将使在质量上新的水平上进行实验来研究各种学科中广泛对象的结构成为可能。整个设施布局包括一个6 GeV的主存储环和一个全能量的线性电子加速器(linac)。提出了一个直线加速器和两个rfgun的组合方案。带光电阴极的射频枪可用于自由电子激光(FEL)产生束束序列，带热离子阴极的aRF枪可用于注入存储环。两个喷射器将使用直线加速器的相同常规部分，由100-120个相同的部分组成。主存储环的目的横视度为50-100 pm.rad。本文将讨论一种以最小化光束能量扩散和输出横向发射度为目的的一般线性加速器方案的发展，加速结构的几何和电动力学参数的优化，以及该线性加速器中的光束动力学分析。束流动力学模拟使用beamdulac代码进行，beamdulac代码由国家核研究大学MEPhI电物理设施部门开发。

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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来源期刊

Vestnik Sankt-Peterburgskogo Universiteta Seriya 10 Prikladnaya Matematika Informatika Protsessy Upravleniya MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

1.30

自引率

50.00%

发文量

期刊介绍： The journal is the prime outlet for the findings of scientists from the Faculty of applied mathematics and control processes of St. Petersburg State University. It publishes original contributions in all areas of applied mathematics, computer science and control. Vestnik St. Petersburg University: Applied Mathematics. Computer Science. Control Processes features articles that cover the major areas of applied mathematics, computer science and control.