Generation of extremely strong accelerating electric field by focusing radially polarized THz pulses with a paraboloid ring

Optics & Laser Technology Pub Date : 2024-08-06 DOI:10.1016/j.optlastec.2024.111554

László Pálfalvi, Zerihun T. Godana, György Tóth, János Hebling

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Abstract

Efficient acceleration of electrically charged particles by focused electromagnetic pulses requires a strong accelerating electric field as well as a sufficiently large interaction region. Single-cycle terahertz pulses are promising candidates for such applications due to their advantageous wavelength and available peak electric field at the level. We propose and characterize a focusing optics for a possible electron vacuum accelerator. This consists of a reflaxicon for beam shaping and a ring-like segment of an on-axis parabolic mirror for tight focusing of the radially polarized THz pulse in order to reach a strong accelerating electric field. The electric field distribution in the focal region was determined by the Stratton–Chu vector diffraction method. Semi-analytical and purely analytical formulae were also derived, simplifying the computation procedure. By focusing radially polarized single-cycle terahertz pulses with pulse energy, calculations predict accelerating electric field component in the order of , well suitable for particle acceleration.

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利用抛物面环聚焦径向偏振太赫兹脉冲，产生极强的加速电场

利用聚焦电磁脉冲有效加速带电粒子需要强大的加速电场和足够大的相互作用区域。单周期太赫兹脉冲因其有利的波长和电平峰值电场而成为此类应用的理想候选者。我们为可能的电子真空加速器提出了一种聚焦光学器件，并对其进行了鉴定。它由一个用于光束整形的反射镜和一个轴上抛物面镜的环形部分组成，用于紧密聚焦径向偏振太赫兹脉冲，以获得强大的加速电场。焦点区域的电场分布是通过 Stratton-Chu 矢量衍射法确定的。同时还得出了半解析和纯解析公式，简化了计算过程。通过聚焦具有脉冲能量的径向极化单周期太赫兹脉冲，计算得出的加速电场分量为，非常适合粒子加速。

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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Optics & Laser Technology

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