P
Padma Kant Shukla
Researcher at Ruhr University Bochum
Publications - 1235
Citations - 37828
Padma Kant Shukla is an academic researcher from Ruhr University Bochum. The author has contributed to research in topics: Plasma & Electron. The author has an hindex of 84, co-authored 1232 publications receiving 35521 citations. Previous affiliations of Padma Kant Shukla include University of California, San Diego & University of KwaZulu-Natal.
Papers
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Journal ArticleDOI
A note on dust-acoustic instability in an inductive gas discharge plasma
M. Rosenberg,Padma Kant Shukla +1 more
TL;DR: In this paper, a dust-acoustic instability driven by streaming ions is proposed as a possible mechanism for the excitation of dust waves in an inductive gas-discharge plasma experiment reported by Zobnin et al.
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Simulation of zonal flow excitation by drift mode turbulence: applications to tokamaks and the magnetopause
Raoul Trines,Robert Bingham,M. W. Dunlop,Andris Vaivads,Jackie A. Davies,Luis O. Silva,José Tito Mendonça,Padma Kant Shukla +7 more
TL;DR: Trines et al. as discussed by the authors investigated the interaction between broadband drift mode turbulence and zonal flows near the edge of a region of magnetized plasma and showed the development of a zonal flow through the modulational instability of the drift wave distribution.
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Theory of dust cloud motions in a nonuniform magnetoplasma
TL;DR: In this paper, a selfconsistent theory for dust cloud motions in a partially ionized nonuniform magnetoplasma is presented, taking into account collisional interactions between the plasma particles, pressure gradient and electromagnetic forces.
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Electron parallel velocity and temperature gradient driven electrostatic fluctuations in nonuniform magnetoplasmas
TL;DR: In this paper, the combined effects of the electron-temperature (ET) and parallel electron velocity (PEV) gradients on electrostatic instabilities in a nonuniform magnetoplasma are investigated.
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Magnetic electron drift vortex mode instability in a cylindrical plasma
TL;DR: In this article, an equation describing the propagation and instability behavior of magnetic electron drift vortex modes in a cylindrically symmetric rotating plasma is derived without using the local approximation.