Amplitude modulation of three-dimensional low frequency solitary waves in a magnetized dusty superthermal plasma

Abstract

The amplitude modulation of three dimensional (3D) dust ion-acoustic wave (DIAW) packets is studied in a collisionless magnetized plasma with inertial positive ions, superthermal electrons and negatively charged immobile dust grains. By using the reductive perturbation technique, a 3D-nonlinear Schr\"odinger (NLS) equation is derived, which governs the slow modulation of DIAW packets. The latter are found to be stable in the low-frequency (ω<ωc) regime, whereas they are unstable for ω>ωc, and the modulational instability (MI) is related to the modulational obliqueness (θ). Here, ω~(ωc) is the nondimensional wave (ion-cyclotron) frequency. It is shown that the superthermal parameter , the frequency ωc as well as the charged dust impurity (0<μ<1) shift the MI domains around the ω-θ plane, where μ is the ratio of electron to ion number densities. Furthermore, it is found that the decay rate of instability is quenched by the superthermal parameter with cut-offs at lower wave number of modulation (K), however, it can be higher (lower) with increasing values of μ (ωc) having cut-offs at higher values of K.