Open AccessNON-EXCITING WAKEFIELD STRUCTURED BUNCHES IN A ONE-DIMENSIONAL PLASMA MODEL
Author(s) -
М. А. Агинян,
S.G. Arutunian,
М. Chung,
G. S. Harutyunyan,
A. V. Margaryan,
K. Moon,
M. A. Tumanyan
Publication year - 2020
Publication title -
resource-efficient technologies
Language(s) - English
Resource type - Journals
eISSN - 2405-6537
pISSN - 2405-6529
DOI - 10.18799/24056537/2020/2/261
Subject(s) - bunches , plasma , amplitude , acceleration , plasma acceleration , particle acceleration , physics , computational physics , electric field , mechanics , quantum electrodynamics , nuclear physics , classical mechanics , electron , optics , quantum mechanics
A model of one-dimensional (1D) cold plasma with an external train of rigidly structured bunches with diverse charges has been introduced. In this model, a solution is presented that cancels the wakefield after the train is found. The density of such bunches can be much greater than the density of the plasma, and a high amplitude electrical field arising inside the train can be used for charged-particle acceleration. In addition, analytical and numerical simulations have been performed.