Dust-acoustic cnoidal waves in a magnetized quantum dusty plasma

Papihra Sethi; N. S. Saini

doi:10.1080/17455030.2019.1679908

Dust-acoustic cnoidal waves in a magnetized quantum dusty plasma

Papihra Sethi, N. S. Saini

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

An investigation of nonlinear dust-acoustic cnoidal waves in a magnetized quantum dusty plasma consisting of inertial dust, inertialess electrons and ions is presented. The Korteweg–de Vries (KdV) equation is obtained by employing reductive perturbation technique and analytical solution of KdV equation is derived by employing the Sagdeev pseudopotential approach. Numerical analysis of the solution is performed to study the characteristics of the dust-acoustic cnoidal waves. In this study, positive (negative) potential dust-acoustic cnoidal waves are observed for the case of positive (negative) dust grains. The influence of various parameters such as quantum diffraction parameter of electrons and ions, magnetic field strength, obliqueness, concentration of ions and Fermi temperature (electrons and ions) has been studied. In the limiting case, dust-acoustic cnoidal wave solution is found to reduce to solitary wave solution.

Original language	English
Pages (from-to)	1488-1504
Number of pages	17
Journal	Waves in Random and Complex Media
Volume	31
Issue number	6
DOIs	https://doi.org/10.1080/17455030.2019.1679908
State	Published - 2021
Externally published	Yes

Funding

Papihra Sethi is grateful to University Grants Commission, New Delhi for Rajiv-Gandhi Fellowship award. This work is supported by DRS-II(SAP) No. F 530/17/DRS-II/2015(SAP-I) UGC, New Delhi.

Keywords

Dusty plasma
Korteweg–de Vries equation
cnoidal waves
quantum plasma
reductive perturbation technique

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10.1080/17455030.2019.1679908

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title = "Dust-acoustic cnoidal waves in a magnetized quantum dusty plasma",

abstract = "An investigation of nonlinear dust-acoustic cnoidal waves in a magnetized quantum dusty plasma consisting of inertial dust, inertialess electrons and ions is presented. The Korteweg–de Vries (KdV) equation is obtained by employing reductive perturbation technique and analytical solution of KdV equation is derived by employing the Sagdeev pseudopotential approach. Numerical analysis of the solution is performed to study the characteristics of the dust-acoustic cnoidal waves. In this study, positive (negative) potential dust-acoustic cnoidal waves are observed for the case of positive (negative) dust grains. The influence of various parameters such as quantum diffraction parameter of electrons and ions, magnetic field strength, obliqueness, concentration of ions and Fermi temperature (electrons and ions) has been studied. In the limiting case, dust-acoustic cnoidal wave solution is found to reduce to solitary wave solution.",

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T1 - Dust-acoustic cnoidal waves in a magnetized quantum dusty plasma

AU - Sethi, Papihra

AU - Saini, N. S.

PY - 2021

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N2 - An investigation of nonlinear dust-acoustic cnoidal waves in a magnetized quantum dusty plasma consisting of inertial dust, inertialess electrons and ions is presented. The Korteweg–de Vries (KdV) equation is obtained by employing reductive perturbation technique and analytical solution of KdV equation is derived by employing the Sagdeev pseudopotential approach. Numerical analysis of the solution is performed to study the characteristics of the dust-acoustic cnoidal waves. In this study, positive (negative) potential dust-acoustic cnoidal waves are observed for the case of positive (negative) dust grains. The influence of various parameters such as quantum diffraction parameter of electrons and ions, magnetic field strength, obliqueness, concentration of ions and Fermi temperature (electrons and ions) has been studied. In the limiting case, dust-acoustic cnoidal wave solution is found to reduce to solitary wave solution.

AB - An investigation of nonlinear dust-acoustic cnoidal waves in a magnetized quantum dusty plasma consisting of inertial dust, inertialess electrons and ions is presented. The Korteweg–de Vries (KdV) equation is obtained by employing reductive perturbation technique and analytical solution of KdV equation is derived by employing the Sagdeev pseudopotential approach. Numerical analysis of the solution is performed to study the characteristics of the dust-acoustic cnoidal waves. In this study, positive (negative) potential dust-acoustic cnoidal waves are observed for the case of positive (negative) dust grains. The influence of various parameters such as quantum diffraction parameter of electrons and ions, magnetic field strength, obliqueness, concentration of ions and Fermi temperature (electrons and ions) has been studied. In the limiting case, dust-acoustic cnoidal wave solution is found to reduce to solitary wave solution.

KW - Dusty plasma

KW - Korteweg–de Vries equation

KW - cnoidal waves

KW - quantum plasma

KW - reductive perturbation technique

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JO - Waves in Random and Complex Media

JF - Waves in Random and Complex Media

IS - 6

ER -

Dust-acoustic cnoidal waves in a magnetized quantum dusty plasma

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