Solitons in magnetized plasma with electron inertia under weakly relativistic effect

被引:0
作者
J. Kalita
R. Das
K. Hosseini
D. Baleanu
S. Salahshour
机构
[1] Gauhati University,Department of Mathematics
[2] Arya Vidyapeeth College,Department of Mathematics
[3] Near East University TRNC,Department of Mathematics
[4] Cankaya University,Department of Mathematics, Faculty of Arts and Sciences
[5] Institute of Space Sciences,Department of Medical Research
[6] China Medical University,Faculty of Engineering and Natural Sciences
[7] Bahcesehir University,undefined
来源
Nonlinear Dynamics | 2023年 / 111卷
关键词
Sagdeev potential; Solitary waves; Mach number; Magnetic field; Energy integral;
D O I
暂无
中图分类号
学科分类号
摘要
In this relativistic consideration, the energy integral unlike others has been derived in a weakly relativistic plasma in terms of Sagdeev potential. Both compressive and rarefactive subsonic solitary waves are found to exist, depending on wave speeds in various directions of propagation. It is found that compressive relativistic solitons have potential depths that are higher than non-relativistic solitons in all directions of propagation, allowing for the presence of denser plasma particles in the potential well. Furthermore, it shows how compressive soliton amplitude grows as the propagation direction gets closer to the magnetic field’s direction.
引用
收藏
页码:3701 / 3711
页数:10
相关论文
共 50 条
[41]   Orbital debris-generated ion acoustic solitons in isothermal magnetized plasma [J].
Ganguli, Gurudas ;
Crabtree, Chris ;
Fletcher, Alex ;
Sen, Abhijit .
PHYSICS OF PLASMAS, 2025, 32 (02)
[42]   Effect of electron inertia on radiative instability of rotating two-component gaseous plasma [J].
Patidar, A. K. ;
Pensia, R. K. ;
Shrivastava, V. .
CANADIAN JOURNAL OF PHYSICS, 2012, 90 (12) :1209-1221
[43]   Dynamical behaviour of non-linear quantum ion acoustic wave in weakly magnetized electron-positron-ion plasma [J].
Roy, Debasish ;
Sahu, Biswajit .
CONTRIBUTIONS TO PLASMA PHYSICS, 2020, 60 (02)
[44]   Ion-acoustic solitons in a relativistic Fermi plasma at finite temperature [J].
Dey, Rupak ;
Banerjee, Gadadhar ;
Misra, Amar Prasad ;
Bhowmik, Chandan .
SCIENTIFIC REPORTS, 2024, 14 (01)
[45]   Effect of excess superthermal hot electrons on finite amplitude ion-acoustic solitons and supersolitons in a magnetized auroral plasma [J].
Rufai, O. R. ;
Bharuthram, R. ;
Singh, S. V. ;
Lakhina, G. S. .
PHYSICS OF PLASMAS, 2015, 22 (10)
[46]   Ion-acoustic shock waves in a plasma with weakly relativistic warm ions, thermal positrons and a background electron nonextensivity [J].
Tribeche, Mouloud ;
Pakzad, Hamid Reza .
ASTROPHYSICS AND SPACE SCIENCE, 2012, 339 (02) :237-241
[47]   Optical isolation of spectral lines emitted by sputtered tungsten in a weakly magnetized plasma [J].
Ertmer, S. ;
Marchuk, O. ;
Sackers, M. ;
Dickheuer, S. ;
Brezinsek, S. ;
Mertens, Ph ;
Kreter, A. .
JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS, 2020, 54 (02)
[48]   Evolution of the electron Langmuir oscillations in an inhomogeneous magnetized plasma [J].
A. V. Timofeev .
Plasma Physics Reports, 2003, 29 :683-687
[49]   Electron acoustic super solitary waves in a magnetized plasma [J].
Kamalam, T. ;
Steffy, S. V. ;
Ghosh, S. S. .
JOURNAL OF PLASMA PHYSICS, 2018, 84 (04)
[50]   Head on collision of ion-acoustic shock waves in weakly relativistic electron-positron-ion quantum plasma [J].
Bansal, Sona ;
Gill, Tarsem Singh .
CHINESE JOURNAL OF PHYSICS, 2024, 90 :932-944
12345