MEPhI’s option of lab scale Compton source

Seriya 3: Fizika, Astronomiya Pub Date : 2023-06-02 DOI:10.55959/msu0579-9392.78.2310403

V. Dyubkov, S. Polozov, V. Rashchikov

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Abstract

A development and construction of comparatively cheap and compact (several meters scale) X-ray sources is possible with the help of inverse Compton backscattering of laser photons on an electron bunch. Such sources can be used in the field of materials science (new materials, diagnostics of nanostructures at the atomic level), research of nano- and biosystems, medicine and pharmacology (new drugs R&D), physics and chemistry of fast-flowing processes (burning, explosion). It is suggested that compact storage synchrotron will operate with normal conducting S-band top-up linac. Linac will provides bunches with tunable energy in the range of 20– 60 MeV to generate the photon flux with tunable energy [1, 2]. The use of a storage ring provides the following advantages: comparatively high average intensity of the generated photon flux, high brightness, photon beam energy tuning in a wide range, high degree of monochromaticity and coherence of the generated photons. There are current results of the design of a compact storage ring for generating the photons in the energy range of 5-45 keV and investigations of the development of relativistic picosecond electron beam dynamics instabilities in the report.

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MEPhI的实验室规模康普顿源选项

借助激光光子在电子束上的反向康普顿散射，开发和构建相对便宜和紧凑(几米尺度)的x射线源是可能的。这些源可用于材料科学领域(新材料，原子水平纳米结构的诊断)，纳米和生物系统的研究，医学和药理学(新药研发)，物理和化学快速流动过程(燃烧，爆炸)。建议紧凑型存储同步加速器在正常导电s波段充放电直线加速器下运行。直线加速器将提供20-60 MeV范围内的可调谐能量束，以产生具有可调谐能量的光子通量[1,2]。使用存储环具有以下优点:产生的光子通量平均强度相对较高，亮度高，光子束能量在大范围内调谐，产生的光子单色性和相干性高。本文介绍了用于产生5- 45kev能量范围光子的紧凑存储环的设计和相对论皮秒电子束动力学不稳定性的研究进展。

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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Seriya 3: Fizika, Astronomiya

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