Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons

Das, Mridusmita / Madhukalya, Bhargab / Das, Ranjan

Ion acoustic solitary waves with arbitrary amplitude have been investigated using the Sagdeev potential (SP) method in a collisionless plasma consisting of non‐isothermal electrons, positrons, and positive ions. The SP has been obtained and the dependence of large amplitude solitary structures on various plasma parameters such as ion drift velocity $(v_{0})$ , non‐thermal parameter $(β)$ , electron to positron temperature ratio $(σ)$ , positron density $(p)$ , and Mach number $(M)$ have been studied. It is shown that, for the same values of plasma parameters, accounting for ion drift velocity greatly corrects the solitary wave profile.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons

Das, Mridusmita / Madhukalya, Bhargab / Das, Ranjan

Ion acoustic solitary waves with arbitrary amplitude have been investigated using the Sagdeev potential (SP) method in a collisionless plasma consisting of non‐isothermal electrons, positrons, and positive ions. The SP has been obtained and the dependence of large amplitude solitary structures on various plasma parameters such as ion drift velocity $(v_{0})$ , non‐thermal parameter $(β)$ , electron to positron temperature ratio $(σ)$ , positron density $(p)$ , and Mach number $(M)$ have been studied. It is shown that, for the same values of plasma parameters, accounting for ion drift velocity greatly corrects the solitary wave profile.

Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons

Das, Mridusmita / Madhukalya, Bhargab / Das, Ranjan

Ion acoustic solitary waves with arbitrary amplitude have been investigated using the Sagdeev potential (SP) method in a collisionless plasma consisting of non‐isothermal electrons, positrons, and positive ions. The SP has been obtained and the dependence of large amplitude solitary structures on various plasma parameters such as ion drift velocity $(v_{0})$ , non‐thermal parameter $(β)$ , electron to positron temperature ratio $(σ)$ , positron density $(p)$ , and Mach number $(M)$ have been studied. It is shown that, for the same values of plasma parameters, accounting for ion drift velocity greatly corrects the solitary wave profile.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons

Contributors:

Das, Mridusmita (author) / Madhukalya, Bhargab (author) / Das, Ranjan (author)

Published in:

Heat Transfer ; 53 ; 2062-2072

Publication date:

2024-06-01

Size:

11 pages

ISSN:

2688-4534 , 2688-4542

DOI:

https://doi.org/10.1002/htj.23027

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

ion‐acoustic wave , ion drift velocity , non‐isothermal electron , positron , Sagdeev potential , soliton , unmagnetized plasma

Similar titles

Ion acoustic solitary waves in multicomponent plasmas: Influence of ion drift velocity and nonthermal electrons

Das, Mridusmita / Madhukalya, Bhargab / Das, Ranjan | Wiley | 2024

Finite element analysis of solitary wave propagation by acoustic velocity method

Maruoka, A. / Uchiyama, I. / Kawahara, M. | British Library Online Contents | 2017

Reflection of Solitary Waves

J. M. Caldwell / L. H. Sensor | NTIS | 1949

Numerical Simulation of Solitary Waves Using Velocity-Vorticity Formulation of Navier-Stokes Equations

Lo, D. C. / Young, D. L. | British Library Online Contents | 2006

Numerical Simulation of Solitary Waves Using Velocity-Vorticity Formulation of Navier-Stokes Equations

Lo, D.C. | Online Contents | 2006