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Impact of wiggler magnetic field on wakefield generation and electron acceleration by Gaussian, Super-Gaussian, and Bessel-Gaussian laser pulses propagating in collisionless plasma – ERRATUM

Published online by Cambridge University Press:  14 April 2023

M. Abedi-Varaki  and
M.E. Daraei
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Abstract

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Keywords

wakefield generationelectron accelerationwiggler magnetic fieldlaser pulse
Type
Erratum
Information
Journal of Plasma Physics , Volume 89 , Issue 2 , April 2023 , 945890201
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Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press

The published article contains an error in the first sentence under the heading “4. Concluding remarks”:

“In this work, considering BG, SG and GL laser pulses propagating in a cold collisionless plasma, the effect of a wiggler magnetic field on wakefield generation and electron acceleration has been.”

This sentence should have been printed as follows:

“In this work, taking into account the BG, SG, and GL laser pulses propagating in a cold collisionless plasma, the effect of a wiggler magnetic field on wakefield generation and electron acceleration has been explored.”

References

Abedi-Varaki, M. & Daraei, M.E. 2023 Impact of wiggler magnetic field on wakefield generation and electron acceleration by Gaussian, super-Gaussian and Bessel–Gaussian laser pulses propagating in collisionless plasma. J. Plasma Phys. 89 (1), 905890114.CrossRefGoogle Scholar