Recent advances of transition radiation: Fundamentals and applications

Materials Today Electronics Pub Date : 2023-05-01 DOI:10.1016/j.mtelec.2023.100025

Ruoxi Chen , Zheng Gong , Jialin Chen , Xinyan Zhang , Xingjian Zhu , Hongsheng Chen , Xiao Lin

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引用次数: 7

Abstract

Transition radiation is a fundamental process of light emission and occurs whenever a charged particle moves across an inhomogeneous region. One feature of transition radiation is that it can create light emission at arbitrary frequency under any particle velocity. Therefore, transition radiation is of significant importance to both fundamental science and practical applications. In this paper, we provide a brief historical review of transition radiation and its recent development. Moreover, we pay special attention to four typical applications of transition radiation, namely the detection of high-energy particles, coherent radiation sources, beam diagnosis, and excitation of surface waves. Finally, we give an outlook for the research tendency of transition radiation, especially its flexible manipulation by exploiting artificially-engineered materials and nanostructures, such as gain materials, metamaterials, spatial-temporal materials, meta-boundaries, and layered structures with a periodic or non-periodic stacking.

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跃迁辐射的最新进展:基础与应用

跃迁辐射是光发射的一个基本过程，每当带电粒子穿过非均匀区域时就会发生跃迁辐射。跃迁辐射的一个特点是它可以在任何粒子速度下产生任意频率的光发射。因此，跃迁辐射在基础科学和实际应用中都具有重要意义。本文简要介绍了跃迁辐射的发展历史及其最新进展。此外，我们还特别关注了跃迁辐射的四个典型应用，即高能粒子探测、相干辐射源、光束诊断和表面波激发。最后，展望了跃迁辐射的研究趋势，特别是利用人工工程材料和纳米结构，如增益材料、超材料、时空材料、元边界以及具有周期性或非周期性堆叠的层状结构，对跃迁辐射进行柔性操纵。

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

Materials Today Electronics

CiteScore

2.10

自引率

0.00%

发文量