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Nonlinear dynamical analysis of drift ion acoustic shock waves in Electron-Positron-Ion plasma with adiabatic trapping

Zeeshan Iqbal, H. A. Shah, M. N. S. Qureshi, W. Masood, Amna Fayyaz

2022Results in Physics14 citationsDOIOpen Access PDF

Abstract

Propagation of nonlinear coupled drift ion acoustic shock wave is investigated in an electron–positron-ion (epi) plasma in the presence of fully degenerate adiabatically trapped electrons. A novel complex nonlinear equation with fractional nonlinear terms is formulated. Phase plane theory of planar dynamical system is employed to investigate this nonlinear equation of epi plasma. The variations in nonlinear periodic orbits (NPO), nonlinear heteroclinic orbits (NHO), time series plots and shock profiles are demonstrated by varying the values of different controlling parameters such as the ratio of positron to electron number density, collisional frequency, magnetic field, drift velocity and angle of propagation. It is seen that a pair of shock structures are obtained – which is the most significant result of this work.

Topics & Concepts

PhysicsAdiabatic processNonlinear systemAtomic physicsElectronPlasmaShock waveIonDegenerate energy levelsShock (circulatory)Magnetic fieldComputational physicsMechanicsQuantum mechanicsMedicineInternal medicineDust and Plasma Wave PhenomenaIonosphere and magnetosphere dynamicsHigh-pressure geophysics and materials
Nonlinear dynamical analysis of drift ion acoustic shock waves in Electron-Positron-Ion plasma with adiabatic trapping | Litcius