%0 Journal Article
%T Electrostatic compressive and rarefactive dust ion-acoustic solitons in four component quantum plasma
%J Iranian Journal of Physics Research
%I Isfahan University of Technology,
The Physics Society of Iran
%Z 1682-6957
%A Rouhani, M R
%A Akbarian, A
%A Mohammadi, Z
%D 2019
%\ 11/26/2019
%V 16
%N 3
%P 91-96
%! Electrostatic compressive and rarefactive dust ion-acoustic solitons in four component quantum plasma
%K Bohm potential
%K compressive solitons
%K dust density
%K KdV equation
%K quantum plasma
%K rarefactive solitons
%R 10.18869/acadpub.ijpr.16.3.91
%X The propagation of nonlinear quantum dust ion-acoustic (QDIA) solitary waves in a unmagnetized quantum plasma whose constituents are inertialess quantum electrons and positrons, classical cold ions and stationary negative dust grains are studied by deriving the Korteweg–de Vries (KdV) equation under the reductive perturbation method. Quantum Hydrodynamic (QHD) equations are used to take into account the quantum diffraction in quantum statistics corrections. It is shown that depending on some critical values of the dust density (d) which is function of quantum diffraction parameter (H), both rarefactive and compressive type of solitons can exist in the model plasma. Further, the amplitude and width of both solitons increase as d increases. Moreover, it is pointed out that an increase in quantum diffraction parameter, decreases the width of compressive soliton but increases the width of rarefactive soliton, and the amplitude of both solitons is independent of H. The present investigation could be useful for researches on astrophysical plasmas as well as for ultra small micro- and nano- electronic devices
%U https://ijpr.iut.ac.ir/article_1207_7ceb6a77083c48fe4c3cacbb4ebee20b.pdf