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Autori principali: Patil, Y., Karkari, S. K.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.23230
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author Patil, Y.
Karkari, S. K.
author_facet Patil, Y.
Karkari, S. K.
contents An elongated plasma column has been successfully generated and sustained in a linear plasma device using a hollow cathode discharge in the presence of an axisymmetric magnetic field. The confinement of cold energetic electrons produced near the hollow cathode plays a crucial role in guiding the plasma along the device axis. Experimental diagnostics reveal a high concentration of energetic electrons in the peripheral region near the source, which progressively converge toward the axis at a downstream location approximately 3.0 meters from the cathode. The length of the plasma column exhibits an inverse relationship with the electron-neutral collision frequency, indicating the significance of collisional damping in the propagation of energetic electrons. These observations are further supported by fluid simulations performed using COMSOL Multiphysics, which qualitatively reproduce the experimental trends. The results are consistent with a theoretical model previously proposed by the authors, reinforcing the understanding of energetic electron behaviour in magnetically guided plasma columns.
format Preprint
id arxiv_https___arxiv_org_abs_2512_23230
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Axisymmetric magnetic field effects on hollow cathode generated plasma column in APPEL-device
Patil, Y.
Karkari, S. K.
Plasma Physics
An elongated plasma column has been successfully generated and sustained in a linear plasma device using a hollow cathode discharge in the presence of an axisymmetric magnetic field. The confinement of cold energetic electrons produced near the hollow cathode plays a crucial role in guiding the plasma along the device axis. Experimental diagnostics reveal a high concentration of energetic electrons in the peripheral region near the source, which progressively converge toward the axis at a downstream location approximately 3.0 meters from the cathode. The length of the plasma column exhibits an inverse relationship with the electron-neutral collision frequency, indicating the significance of collisional damping in the propagation of energetic electrons. These observations are further supported by fluid simulations performed using COMSOL Multiphysics, which qualitatively reproduce the experimental trends. The results are consistent with a theoretical model previously proposed by the authors, reinforcing the understanding of energetic electron behaviour in magnetically guided plasma columns.
title Axisymmetric magnetic field effects on hollow cathode generated plasma column in APPEL-device
topic Plasma Physics
url https://arxiv.org/abs/2512.23230