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Waves in Random and Complex Media Volume 32, 2022 - Issue 4
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Original Articles

Three-dimensional dissipative ion-acoustic rogue waves in magnetized plasma with adiabatic ions and nonextensive electrons

D. V. Douanlaa Higher Teacher's Training College, University of Maroua, Maroua, Cameroon
,
Alima Higher Teacher's Training College, University of Maroua, Maroua, Cameroon
,
C. G. L. Tiofackb Faculty of Sciences, University of Maroua, Maroua, CameroonCorrespondence[email protected]
,
A. Mohamadoub Faculty of Sciences, University of Maroua, Maroua, Cameroon;c The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy
&
L. S. El-Sherifd Department of Physics, College of Arts and Science, Prince Sattam bin Abdulaziz University, Wadi Al-Dawaser, Saudi Arabia;e Department of Physics, Faculty of Science, Ain Shams University, Cairo, Egypt
Pages 1847-1861 | Received 29 Apr 2020, Accepted 12 Oct 2020, Published online: 02 Nov 2020

References

  • Leontovich MA. Reviews of plasma physics. Berlin: Springer Science and Business Media; 2012.
  • Ikezawa S, Nakamura YJ. Observation of electron plasma waves in plasma of two-temperature electrons. Phys Soc Jpn. 1981;50:962–967.
  • Dubouloz N, Pottelette R, Malingre M, et al. Detailed analysis of broadband electrostatic noise in the dayside auroral zone. J Geophys Res. 1991;96:3565–3579.
  • Mozer FS, Ergun R, Temarin M, et al. New features of time domain electric-field structures in the auroral acceleration region. Phys Rev Lett. 1997;79:1281–1284.
  • Ikezi H. Experiments on ion-acoustic solitary waves. Phys Fluids. 1973;16:1668–1675.
  • Watanabe S. Ion-acoustic solitons excited by a single grip. J Plasma Phys. 1975;14:353–364.
  • Selwyn GS, Heidenreich JE, Haller KL. Particle trapping phenomena in radio frequency plasmas. Appl Phys Lett. 1990;57:1876–1878.
  • Boufendi L, Bouchoule A, Porteous RK, et al. Particle-particle interactions in dusty plasmas. J Appl Phys. 1993;73:2160–2162.
  • Gondhalekar A, Stangeby PC, Elder JD. Investigations of impurity control in JET using fuelling, and interpretation of experiments using the LIM impurity code. Nucl Fusion. 1994;34:247–260.
  • Kolbasov BN, Kukushkin AB, RantsevKartinov VA, et al. Similarity of micro- and macrotubules in tokamak dust and plasma. Phys Lett A. 2000;269:363–367.
  • Bacha M, Soufiane B, Tribeche M. Ion-acoustic rogue waves in a plasma with a q-nonextensive electron velocity distribution. Astrophys Space Sci. 2012;341:591–595.
  • El-Labany SK, Moslem WM, El-Bedwehy NA, et al. Rogue wave in Titan's atmosphere. Astrophys Space Sci. 2012;338:3–8.
  • Jannat N, Ferdousi M, Mamun AA. Ion-acoustic Gardner solitons in a four-component nonextensive multi-ion plasma. Plasma Phys Rep. 2016;42:678–686.
  • Mahmood S, Mushtaq A, Saleem H. Ion acoustic solitary wave in homogeneous magnetized electron-positron-ion plasmas. New J Phys. 2003;5:28.
  • Bacha M, Gougam LA, Tribeche M. Ion-acoustic rogue waves in magnetized solar wind plasma with nonextensive electronsPhysica A. 2017;466:199–210.
  • Kharif C, Efim P, Alexey S. Rogue waves in the ocean. Berlin: Springer Science and Business Media; 2008.
  • Aljahdaly NH, El-Tantawy SA. Simulation study on nonlinear structures in nonlinear dispersive media. Chaos. 2020;30:053117.
  • Irfan M, Ali S, El-Tantawy SA, et al. Three dimensional ion-acoustic rogons in quantized anisotropic magnetoplasmas with trapped/untrapped electrons. Chaos. 2019;29:103133.
  • Almutlak SA, El-Tantawy SA, Shan SA, et al. Multidimensional freak waves in electron depleted dusty magnetoplasmas having superthermal ion with two temperatures. Eur Phys J Plus. 2019;134:513.
  • Almutalk SA, El-Tantawy SA, El-Awady EI, et al. On the numerical solution of nonplanar dust-acoustic super rogue waves in a strongly coupled dusty plasma. Phys Lett A. 2019;383:1937–1941.
  • El-Tantawy SA, Aboelenen T, Ismaeel SME. Local discontinuous Galerkin method for modeling the nonplanar structures (solitons and shocks) in an electronegative plasma. Phys Plasmas. 2019;26:022115.
  • Bespalov VI, Talanov VI. Filamentary structure of light beams in nonlinear liquids. Pis'ma v Zurnal Experim Teoret Fiziki. 1966;3:471.
  • Ganshin AN, Efimov VB, Kolmakov GV, et al. Observation of an inverse energy cascade in developed acoustic turbulence in superfluid helium. Phys Rev Lett. 2008;101:065303.
  • Onorato M, Residori S, Bortolozzo U, et al. Rogue waves and their generating mechanisms in different physical contexts. Phys Rep. 2013;528:47–89.
  • Shats M, Punzmann H, Xia H. Capillary rogue waves. Phys Rev Lett. 2010;104:104503.
  • Asbridge JR, Bame SJ, Strong IB. Outward flow of protons from the earth's bow shock. J Geophys Res. 1968;73:5777–5782.
  • Kulikov YN, Lammer H, Lichtenegger HIM, et al. A comparative study of the influence of the active young Sun on the early atmospheres of Earth, Venus, and Mars. Space Sci Rev. 2007;129:207–243.
  • Futaana Y, Machida S, Saito Y, et al. Moon-related nonthermal ions observed by Nozomi: species, sources, and generation mechanisms. J Geophys Res Space. 2003;108:SMP-15.
  • Divine N, Garrett HB. Charged particle distributions in Jupiter's magnetosphere. J Geophys Res Space. 1983;88:6889–6903.
  • Krimigis SM, Carbary JF, Keath EP, et al. General characteristics of hot plasma and energetic particles in the Saturnian magnetosphere: results from the Voyager spacecraft. J Geophys Res Space. 1983;88:8871–8892.
  • Renyi A. On a new axiomatic theory of probability.Acta Math Acad Sci Hung. 1955;6:285–335.
  • Tsallis C. Possible generalization of Boltzmann-Gibbs statistics. J Stat Phys. 1988;52:479–487.
  • Rax JM. Physique des plasmas: cours et applications. Paris: Dunod; 2009.
  • El-Tantawy SA. Ion-acoustic waves in ultracold neutral plasmas: modulational instability and dissipative rogue waves. Phys Lett A. 2017;381:787–791.
  • Alinejad H, Shahmansouri M. Evolution of dissipative low-frequency rogue waves in superthermal dusty plasmas. IEEE Trans Plasma Sci. 2019;47:4378–4384.
  • Shahein RA, El-Shehri JH. Bifurcation analysis of dissipative rogue wave in electron-positron-ion plasma with relativistic ions and superthermal electrons. Chaos Soliton Fract. 2019;128:114–122.
  • Xue JK. Modulation of dust acoustic waves with non-adiabatic dust charge fluctuations. Phys Lett A. 2003;320:226–233.
  • Amin MR. Modulation of a quantum positron acoustic wave. Astrophys Space Sci. 2015;359:2.
  • Guo S, Mei L. Three-dimensional dust-ion-acoustic rogue waves in a magnetized dusty pair-ion plasma with nonthermal nonextensive electrons and opposite polarity dust grains. Phys Plasmas. 2014;21:082303.
  • Bains AS, Tribeche M, Gill TS. Modulational instability of electron-acoustic waves in a plasma with a q-nonextensive electron velocity distribution. Phys Lett A. 2011;375:2059–2063.
  • Xue JK. Modulational instability of multi-dimensional dust ion-acoustic waves. Phys Lett A. 2004;330:390–395.
  • Akhmediev N, Ankiewicz A, Taki M. Waves that appear from nowhere and disappear without a trace. Phys Lett A. 2009;373:675–678.
  • Yan Z. Nonautonomous ‘rogons’ in the inhomogeneous nonlinear Schrödinger equation with variable coefficients. Phys Lett A. 2010;374:672–679.
  • El-Tantawy S, Salas A, Hammadd M, et al. Impact of dust kinematic viscosity on the breathers and rogue waves in a complex plasma having kappa distributed particles. Waves Random Complex Medium. 2019. doi:https://doi.org/10.1080/17455030.2019.1698790

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