Time-of-flight technique for estimation of the energy of runaway electron bunches formed in magnetized gas diodes

Physics of Plasmas Pub Date : 2024-06-01 DOI:10.1063/5.0213344

L. N. Lobanov, K. Sharypov, V. Shpak, S. Shunailov, M. I. Yalandin, N. M. Zubarev

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Abstract

Time-of-flight estimates of the kinetic energy of magnetically insulated bunches of moderately relativistic runaway electrons (RAEs) were obtained with the use of an air diode equipped with a drift section. The measurements have demonstrated that the bunch energy can be controlled by changing the conditions for RAE emission in an air diode with a sharply inhomogeneous electric field, which can be done by varying the cathode geometry and material and the length of the cathode-anode gap. It has been demonstrated that if the measured electron current peaks are resolved to within 10 ps, and the bunch duration and spread in RAE emission moments are close to this resolution, the characteristic energies of the bunches can be estimated with an accuracy of ≈10%. Examples of energy measurements are given for paraxial and tubular bunches accelerated at cathode potentials of up to −250 kV. The estimated characteristic energies of the bunches, even not corrected for drift losses in the fill gas, turned out to be greater than the energies that could be achieved for bunches accelerated in a vacuum diode with due account for the variations in diode voltage.

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用于估算磁化气体二极管中形成的失控电子束能量的飞行时间技术

利用配备漂移部分的空气二极管，获得了磁绝缘中度相对论失控电子束（RAE）的飞行时间动能估计值。测量结果表明，可以通过改变阴极的几何形状和材料以及阴阳极间隙的长度，来改变具有急剧不均匀电场的空气二极管中 RAE 的发射条件，从而控制电子束的能量。实验证明，如果测量到的电子电流峰值的分辨率在 10 ps 以内，并且电子束持续时间和 RAE 发射时刻的扩散也接近这一分辨率，则可以估算出电子束的特征能量，精确度≈10%。我们举例说明了在阴极电位高达 -250 kV 时加速的准轴束和管束的能量测量结果。即使不对填充气体中的漂移损失进行校正，估计的束流特征能量也比在真空二极管中加速的束流所能达到的能量要大，这充分考虑了二极管电压的变化。

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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Physics of Plasmas

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