Fatima Bint-e-Munir scite author profile

Fatima Bint-e-Munir

2Publications

9Citation Statements Received

30Citation Statements Given

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Affiliations

Government College University, Lahore

Publications

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Magnetized plasma-wall transition layer with cold ions

Tskhakaya

Bint-e-Munir

Kühn³

2010

J. Plasma Phys.

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The magnetized plasma-wall transition (MPWT) layer occurring, for example near a tokamak diverter, typically consists of three distinct sublayers: the Debye sheath (DS), the magnetic presheath (MPS) and the collisional presheath (CPS), with characteristic lengths λ D (electron Debye length), ρ i (ion gyroradius) and λ (smallest relevant ion collision length), respectively. For analytical simplicity one usually assumes the ordering λ D Ӷ ρ i Ӷ λ, or, equivalently, ε D m ≡ λ D ρ i → 0 and ε m c ≡ ρ i λ → 0 ('asymptotic three-scale (A3S) limit'), in which the three sublayers are precisely defined. In the present work the equations and length scales governing the transition, or the 'intermediate' regions between neighboring sublayers (DS-MPS, MPS-CPS), in the A3S limit are derived, allowing one to avoid the singularities arising from the ε D m → 0 and ε m c → 0 approximations. The MPS entrance and the related Bohm-Chodura condition is defined in a natural way. It is found that in the hydrodynamic T i = 0 approximation the intermediate scales and equations have a universal form and a similar structure not only for the MPS-DS and CPS-MPS transitions but also for the DS-CPS transition in the non-magnetized case.

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Analytical modeling of electrical solitons in a nonlinear transmission line using Schamel–Korteweg deVries equation

Aziz

Asif

Bint-e-Munir

2020

Chaos, Solitons & Fractals

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