Cylindrical and spherical electron-acoustic shock waves in electron-positron-ion plasmas with nonextensive electrons and positrons
Article
Rafat, A, Rahman, MM, Alam, MS et al. (2015). Cylindrical and spherical electron-acoustic shock waves in electron-positron-ion plasmas with nonextensive electrons and positrons
. 63(2), 243-248. 10.1088/0253-6102/63/2/18
Rafat, A, Rahman, MM, Alam, MS et al. (2015). Cylindrical and spherical electron-acoustic shock waves in electron-positron-ion plasmas with nonextensive electrons and positrons
. 63(2), 243-248. 10.1088/0253-6102/63/2/18
Electron-acoustic shock waves (EASWs) in an unmagnetized four-component plasma (containing hot electrons and positrons following the q-nonextensive distribution, cold mobile viscous electron fluid, and immobile positive ions) are studied in nonplanar (cylindrical and spherical) geometry. With the help of the reductive perturbation method, the modified Burgers equation is derived. Analytically, the effects of nonplanar geometry, nonextensivity, relative number density and temperature ratios, and cold electron kinematic viscosity on the basic properties (viz. amplitude, width, speed, etc.) of EASWs are discussed. It is examined that the EASWs in nonplanar geometry significantly differ from those in planar geometry. The results of this investigation can be helpful in understanding the nonlinear features of EASWs in various astrophysical plasmas.
