Dust-acoustic rogue waves in an electron-positron-ion-dust plasma medium

Abstract

A precise theoretical investigation has been made on dust-acoustic (DA) waves (DAWs) in a four components dusty plasma medium having inertial warm adiabatic dust grains and inertialess q-distributed electrons as well as isothermal ions and positrons. The nonlinear and dispersive parameters of the nonlinear Schr\"odinger equation (NLSE), which develops by using reductive perturbations technique, have been used to recognize the stable and unstable parametric regions of the DAWs as well as associated DA rogue waves (DARWs) in the unstable parametric regime of the DAWs. The effects of the light positrons and massive dust grains in determining the amplitude and width of the DARWs associated with DAWs are examined. The findings of our present investigation may be useful for understanding different nonlinear electrostatic phenomena in both space and laboratory plasmas.