Electrostatic rogue waves in double pair plasmas

Abstract

A nonlinear Schr\"odinger equation is derived to investigate the modulational instability (MI) of ion-acoustic (IA) waves (IAWs) in a double pair plasma system containing adiabatic positive and negative ion fluids along with super-thermal electrons and positrons. The analytical analysis predicts two types of modes, viz. fast (ωf) and slow (ωs) IA modes. The possible stable and unstable parametric regions for the IAWs in presence of external perturbation can be observed for both ωf and ωs. The number density of the negative ions and positrons play a vital role in generating the IA rogue waves (IARWs) in the modulationally unstable region. The applications of our present work in astrophysical environments [viz. D-region ( H+, O2-) and F-region ( H+, H-) of the Earth's ionosphere] as well as in laboratory plasmas [viz. pair-ion Fullerene ( C+, C-)] are pinpointed.