Multimodal azimuthal oscillations in electron beam generated E × B plasma

Nirbhav Singh Chopra; Mina Papahn Zadeh; Mikhail Tyushev; Andrei Smolyakov; Alexandre Likhanskii; Yevgeny Raitses

doi:10.1063/5.0273397

Multimodal azimuthal oscillations in electron beam generated E × B plasma

Nirbhav Singh Chopra
, Mina Papahn Zadeh
, Mikhail Tyushev
, Andrei Smolyakov
, Alexandre Likhanskii
, Yevgeny Raitses

PPPL Discovery Plasma Science

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Electron beam (e-beam) generated plasmas with applied crossed electric and magnetic ( E × B ) fields are promising for low-damage material processing. However, these plasmas can be subject to the formation of azimuthally propagating structures that enhance the radial transport of energetic charged species, which can harm the gentle processing capability of the plasma. In this work, we investigate the azimuthal structure formation in an e-beam generated E × B plasma using experimental diagnostics and 2D3V particle-in-cell simulations. Our findings demonstrate the formation of multiple simultaneously occurring azimuthally propagating modes that exhibit nontrivial radial dependence. It is suggested that the multimodal azimuthal spectrum is caused in part by the radial outflow of ions in the plasma.

Original language	English (US)
Article number	073511
Journal	Physics of Plasmas
Volume	32
Issue number	7
DOIs	https://doi.org/10.1063/5.0273397
State	Published - Jul 1 2025

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/5.0273397

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abstract = "Electron beam (e-beam) generated plasmas with applied crossed electric and magnetic ( E × B ) fields are promising for low-damage material processing. However, these plasmas can be subject to the formation of azimuthally propagating structures that enhance the radial transport of energetic charged species, which can harm the gentle processing capability of the plasma. In this work, we investigate the azimuthal structure formation in an e-beam generated E × B plasma using experimental diagnostics and 2D3V particle-in-cell simulations. Our findings demonstrate the formation of multiple simultaneously occurring azimuthally propagating modes that exhibit nontrivial radial dependence. It is suggested that the multimodal azimuthal spectrum is caused in part by the radial outflow of ions in the plasma.",

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T1 - Multimodal azimuthal oscillations in electron beam generated E × B plasma

AU - Chopra, Nirbhav Singh

AU - Zadeh, Mina Papahn

AU - Tyushev, Mikhail

AU - Smolyakov, Andrei

AU - Likhanskii, Alexandre

AU - Raitses, Yevgeny

PY - 2025/7/1

Y1 - 2025/7/1

N2 - Electron beam (e-beam) generated plasmas with applied crossed electric and magnetic ( E × B ) fields are promising for low-damage material processing. However, these plasmas can be subject to the formation of azimuthally propagating structures that enhance the radial transport of energetic charged species, which can harm the gentle processing capability of the plasma. In this work, we investigate the azimuthal structure formation in an e-beam generated E × B plasma using experimental diagnostics and 2D3V particle-in-cell simulations. Our findings demonstrate the formation of multiple simultaneously occurring azimuthally propagating modes that exhibit nontrivial radial dependence. It is suggested that the multimodal azimuthal spectrum is caused in part by the radial outflow of ions in the plasma.

AB - Electron beam (e-beam) generated plasmas with applied crossed electric and magnetic ( E × B ) fields are promising for low-damage material processing. However, these plasmas can be subject to the formation of azimuthally propagating structures that enhance the radial transport of energetic charged species, which can harm the gentle processing capability of the plasma. In this work, we investigate the azimuthal structure formation in an e-beam generated E × B plasma using experimental diagnostics and 2D3V particle-in-cell simulations. Our findings demonstrate the formation of multiple simultaneously occurring azimuthally propagating modes that exhibit nontrivial radial dependence. It is suggested that the multimodal azimuthal spectrum is caused in part by the radial outflow of ions in the plasma.

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Multimodal azimuthal oscillations in electron beam generated E × B plasma

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