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.
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Electron-acoustic solitary waves in dense quantum electron-ion plasmas
TL;DR: In this paper, the propagation characteristics of nonlinear electron-acoustic solitary waves (EASWs) in a dense quantum plasma whose constituents are two groups of electrons: one inertial cold electrons and other inertial hot electrons, and the stationary ions which form the neutralizing background.
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Nonlinear generation of electromagnetic waves in a magnetoplasma
Ghulam Murtaza,Padma Kant Shukla +1 more
TL;DR: In this paper, it was shown that a finite-amplitude upper-hybrid wave can decay into a perpendicularly (to an external magnetic field B0zˇ) propagating electrostatic lower-hybrids/ion-cyclotron wave and a left-handed circularly polarized (LHCP) electromagnetic wave (along B0) or an ordinary mode radiation (across B0).
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Breather mode in the many-electron dynamics of semiconductor quantum wells
TL;DR: In this paper, the existence of a breather mode in the self-consistent electron dynamics of a semiconductor quantum well was demonstrated using a nonperturbative variational method based on quantum hydrodynamics.
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3D simulations of fluctuation spectra in the hall-MHD plasma.
TL;DR: The results of the 3D simulations exhibit that turbulent spectral cascades in the presence of a mean magnetic field follow an omnidirectional anisotropic inertial-range spectrum close to k(-7/3).
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Charging of a dust particle in a plasma with a non extensive electron distribution function
TL;DR: In this paper, a theoretical model for the electrostatic charging of a spherical dust particle in an electron-ion plasma with streaming ions and a nonextensive electron distribution function following a non-Maxwell-Boltzmann law is presented.