2021
DOI: 10.1017/s0022377821000544
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Rotation and shear control of a weakly magnetized plasma column using current injection by emissive electrodes

Abstract: The evolution of the radial profile of the rotation of a weakly magnetized plasma column is investigated experimentally in a radio-frequency argon plasma at low pressure when a strong electron current is emitted by large emissive cathodes. Current injection from large emissive cathodes over a background plasma column (with a plasma density of a few $10^{18}\ \textrm {m}^{-3}$ ) is characterized. Radial scans of the ion velocity show that a continuous control of the rotation profile m… Show more

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Cited by 12 publications
(9 citation statements)
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“…This is well explained by a Doppler shift due to the plasma column rotation. The plasma column indeed rotates, as was reported previously 53 , where the electric drift E × B B 2 = −∇ r φ p /B e θ was shown to overcome the diamagnetic drift…”
Section: Waves Identificationsupporting
confidence: 82%
See 1 more Smart Citation
“…This is well explained by a Doppler shift due to the plasma column rotation. The plasma column indeed rotates, as was reported previously 53 , where the electric drift E × B B 2 = −∇ r φ p /B e θ was shown to overcome the diamagnetic drift…”
Section: Waves Identificationsupporting
confidence: 82%
“…The effective friction due to the ionization originates from ions created with a temperature much lower than the surrounding T i and depends upon the ionization frequency ν iz , computed as ν iz = n n K iz,0 T 0. with K iz,0 = 2.34 × 10 −14 m 3 /s and ε iz = 17.44 eV, and T e in eV 55 . A global damping factor K is then given 31,53 as…”
Section: Waves Identificationmentioning
confidence: 99%
“…We will assume that the rotation speed at an infinite distance from the center is not infinite. Then, proceeding from (14), at infinity the velocity has the form u iϕ = 1/K d , where K d = 1 + 1/χ 2drag factor, which is consistent with the papers [22,23], in which this rotation speed was obtained by neglecting the convective derivative in the left side (5) compared to the terms in the right side.…”
Section: Drift Velocity In Centrally Symmetric Fieldsupporting
confidence: 81%
“…Будем считать, что скорость вращения на бесконечном расстоянии от центра не бесконечна. Тогда, исходя из (14), на бесконечности скорость имеет вид u iϕ = 1/K d , где K d = 1 + 1/χ 2 -коэффициент торможения (drag factor), что согласуется с работами [22,23], в которых данная скорость вращения получена при пренебрежении конвективной производной в левой части (5) по сравнению со слагаемыми в правой части.…”
Section: скорость дрейфа в центрально-симметричном полеunclassified