利用高电荷束驱动介电棱镜的大功率单周期太赫兹切伦科夫辐射

IF 1.3 4区物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS

IEEE Transactions on Plasma Science Pub Date : 2023-06-27 DOI:10.1109/TPS.2023.3286089

Zhi Tao;Li Sun;Zheng Zhou;Hongliang Xu;Weihao Liu

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引用次数: 0

摘要

太赫兹(THz)宽波段脉冲发射在当今的科学技术中有着广泛的应用。然而，大多数现有方法产生的太赫兹脉冲的功率和带宽都不合适。为了产生高功率和宽带太赫兹脉冲发射，本文提出了利用高电荷电子束激发一对介电棱镜的相干切伦科夫辐射。对切伦科夫辐射的时间和光谱特性进行了详细的理论分析和仿真验证。设计了1 - 4 mev电子枪和聚束器，用于产生束荷超过几百皮库仑的电子束，同时使其横向尺寸保持在0.2 mm以下。通过相干切伦科夫辐射可以实现波段覆盖0 ~ 1太赫兹的单周期太赫兹脉冲。太赫兹脉冲的场强与束荷成正比，可达几十MV/m。这种高强度宽带太赫兹脉冲在太赫兹光谱学、太赫兹成像和太赫兹驱动粒子加速方面具有潜在的应用前景。

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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High-Power Single-Cycle Terahertz Cherenkov Radiation Using a High-Charge Bunch to Drive Dielectric Prisms

Terahertz (THz) pulses emission with a wide spectral band find broad applications in nowadays science and technology. However, the power and bandwidth of THz pulses generated by most of the available methods are not suitable. Aiming to generate a high-power and broadband THz pulse emission, in this article it is proposed to use a high-charge electron bunch to excite coherent Cherenkov radiation from a pair of dielectric prisms. Detailed theoretical analyses and simulation verifications on the temporal and spectral properties of Cherenkov radiation are performed. A 1–4-MeV electron gun, together with a buncher, is designed to generate an electron bunch with a bunch charge that exceeds several hundred picocoulombs while keeping its transversal dimension under 0.2 mm. A single-cycle THz pulse with spectral band covering the range from 0 to 1 THz can be realized via coherent Cherenkov radiation. The field intensity of THz pulse, which is proportional to the bunch charge, can reach tens of MV/m. This high-intensity and broadband THz pulse has potential applications in THz spectroscopy, THz imaging, and THz-driven particle accelerations.

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来源期刊

IEEE Transactions on Plasma Science 物理-物理：流体与等离子体

CiteScore

3.00

自引率

20.00%

发文量

538

审稿时长

3.8 months

期刊介绍： The scope covers all aspects of the theory and application of plasma science. It includes the following areas: magnetohydrodynamics; thermionics and plasma diodes; basic plasma phenomena; gaseous electronics; microwave/plasma interaction; electron, ion, and plasma sources; space plasmas; intense electron and ion beams; laser-plasma interactions; plasma diagnostics; plasma chemistry and processing; solid-state plasmas; plasma heating; plasma for controlled fusion research; high energy density plasmas; industrial/commercial applications of plasma physics; plasma waves and instabilities; and high power microwave and submillimeter wave generation.