Ahmed E. El-Samahy scite author profile

Using the reductive perturbation technique (RPT), the nonlinear propagation of magnetosonic solitary waves in an ultracold, degenerate (extremely dense) electron-positron (EP) plasma (containing ultracold, degenerate electron, and positron fluids) is investigated. The set of basic equations is reduced to a Korteweg-de Vries (KdV) equation for the lowest-order perturbed magnetic field and to a KdV type equation for the higher-order perturbed magnetic field. The solutions of these evolution equations are obtained. For better accuracy and searching on new features, the new solutions are analyzed numerically based on compact objects (white dwarf) parameters. It is found that including the higher-order corrections results as a reduction (increment) of the fast (slow) electromagnetic wave amplitude but the wave width is increased in both cases. The ranges where the RPT can describe adequately the total magnetic field including different conditions are discussed.

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Electrical measurements of ß-cobalt phthalocyanine single crystals

Riad¹,

El-Samahy²,

Khalil³

1995

Physica B: Condensed Matter

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Ion Acoustic Solitary Waves in Degenerate Electron-Ion Plasmas

El‐Labany

El-Taibany

El-Samahy

et al. 2016

IEEE Trans. Plasma Sci.

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Ahmed E. El-Samahy

Transport properties in nickel phthalocyanine thin films using gold electrodes

Higher-order corrections to nonlinear dust-ion-acoustic shock waves in a degenerate dense space plasma

Nonlinear Electromagnetic Waves in a Degenerate Electron-Positron Plasma

Electrical measurements of ß-cobalt phthalocyanine single crystals

Ion Acoustic Solitary Waves in Degenerate Electron-Ion Plasmas

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