Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-17T14:16:51.441Z Has data issue: false hasContentIssue false

Nonlinear propagation of ion acoustic waves in quantum plasma in the presence of an ion beam

Published online by Cambridge University Press:  06 November 2019

Indrani Paul
Affiliation:
Department of Physics, Jadavpur University, Kolkata700032, India
Arkojyothi Chatterjee
Affiliation:
East Kolkata Centre for Science Education and Research, P-1, B.P. Township, Kolkata700 094, India
Sailendra Nath Paul*
Affiliation:
Department of Physics, Jadavpur University, Kolkata700032, India East Kolkata Centre for Science Education and Research, P-1, B.P. Township, Kolkata700 094, India
*
Author for correspondence: Sailendra Nath Paul, Department of Physics, Jadavpur University, Kolkata700032, India. E-mail: [email protected]

Abstract

Nonlinear propagation of ion acoustic waves has been studied in unmagnetized quantum (degenerate) plasma in the presence of an ion beam using the one-dimensional quantum hydrodynamic model. The Korteweg–de Vries (K–dV) equation has been derived by using the reductive perturbation technique. The solution of ion acoustic solitary waves is obtained from the K–dV equation. The theoretical results have been analyzed numerically for different values of plasma parameters and the results are presented graphically. It is seen that the formation and structure of solitary waves are significantly affected by the ion beam in quantum plasma. The solitary waves will be compressive or rarefactive depending upon the values of velocity, concentration, and temperature of the ion beam. The critical value of ion beam density for the nonexistence of solitary wave has been numerically estimated, and its variation with velocity and temperature of ion beam has been discussed graphically. The results are new and would be very useful for understanding the beam–plasma interactions and the formation of nonlinear wave structures in dense quantum plasma.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2019

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abrol, PS and Tagare, SG (1979) Ion-acoustic solitary waves in an ion-beam-plasma system with nonisothermal electrons. Physics Letters A 75, 7476.CrossRefGoogle Scholar
Agrawal, G (1989) Nonlinear Fiber Optic. San Diego, CA: Academic, Chaps. 2–5.4.Google Scholar
Akbari-Moghanjoughi, M (2010) Effects of ion-temperature on propagation of the large-amplitude ion-acoustic solitons in degenerate electron-positron-ion plasmas. Physics of Plasmas 17, 082315.CrossRefGoogle Scholar
Akbari-Moghanjoughi, M (2011) Propagation of arbitrary-amplitude ion waves in relativistically degenerate electron-ion plasmas. Astrophysics and Space Science 332, 187192.CrossRefGoogle Scholar
Ali, S and Shukla, PK (2006) Dust acoustic solitary waves in a quantum plasma. Phys. Plasmas 13, 129902.CrossRefGoogle Scholar
Ali, S, Moslem, WM, Shukla, PK and Schlickeiser, R (2007) Linear and nonlinear ion-acoustic waves in an unmagnetized electron-positron-ion quantum plasma. Physics of Plasmas 14, 082307.CrossRefGoogle Scholar
Ang, LK, Kwan, TT and Lau, YY (2003) New scaling of child-langmuir law in the quantum regime. Physical Review Letters 91, 208303.CrossRefGoogle Scholar
Azechi, H (2006) FIREX project. Plasma Physics and Controlled Fusion 48B, 267.CrossRefGoogle Scholar
Bailung, H, Sharma, SK and Nakamura, Y (2010) Effect of ion beam on the propagation of rarefactive solitons in multicomponent plasma with negative ions. Physics of Plasmas 17, 062103.CrossRefGoogle Scholar
Bala, P, Gill, TS, Bains, AS and Kaur, H (2017) Ion-acoustic dressed solitary structures in two component plasma with Tsallis-nonthermal velocity distribution of electrons. Indian Journal of Physics 91, 16251634.CrossRefGoogle Scholar
Baluku, TK and Hellberg, MA (2012) Ion acoustic solitons in a plasma with two-temperature kappa-distributed electrons. Physics of Plasmas 19, 012106.CrossRefGoogle Scholar
Barnes, WL, Dereux, A and Ebbesen, TW (2003) Surface plasmon sub wavelength optics. Nature 424, 824830.CrossRefGoogle Scholar
Chandra, S, Paul, SN and Ghosh, B (2012) Linear and non-linear propagation of electron plasma waves in quantum plasma. Indian Journal of Pure & Applied Physics 50, 314319.Google Scholar
Chandra, S, Paul, SN and Ghosh, B (2013) Electro-acoustic solitary waves in relativistically degenerate quantum plasma with two-temperature electrons. Astrophysics and Space Science 343, 213219.CrossRefGoogle Scholar
Chattopadhyaya, S and Paul, SN (2012) Existence of compressive and rarefactive solitary waves in presence of cold positive and negative ions with drift for single temperature plasma. The African Review of Physics 7, 003289.Google Scholar
Danehkar, A (2018) Electron beam-plasma interaction and electro-acoustic solitary waves in a plasma with suprathermal electrons. Plasma Physics and Controlled Fusion 60, 065010.CrossRefGoogle Scholar
Das, R (2012) Effect of ion temperature on small-amplitude ion acoustic solitons in a magnetized ion-beam plasma in presence of electron inertia. Astrophysics and Space Science 341, 543549.CrossRefGoogle Scholar
Das, R and Deka, P (2015) Korteweg-de Vries solutions in high relativistic electron beam plasma. International Journal of Engineering Research 6, 864870.Google Scholar
Das, GC and Paul, SN (1985) Ion-acoustic solitary waves in relativistic plasmas. Physics of Fluids 28, 823825.CrossRefGoogle Scholar
Das, GC and Singh, KI (1991) Spherical solitons in ion-beam plasma. Contributions to Plasma Physics 31, 1525.CrossRefGoogle Scholar
Das, GC, Singh, KI and Karmakar, B (2011) Solitons in ion-beam plasmas bounded by cylindrical geometry. Canadian Journal of Physics 67, 609613.CrossRefGoogle Scholar
Dip, PR, Hossen, MA, Salahuddin, M and Mamun, AA (2017) Electro-acoustic solitary waves and double layers in a quantum plasma. European Physical Journal D 71, 52.CrossRefGoogle Scholar
El-Labany, SK (1995) Propagation of ion-acoustic solitons in a warm ion beam plasma system. Journal of Plasma Physics 54, 285293.CrossRefGoogle Scholar
Gell, Y and Roth, I (1977) The effects of an ion beam on the motion of solitons in an ion beam-plasma system. Plasma Physics 19, 915.CrossRefGoogle Scholar
Ghosh, KK, Paul, B, Das, C and Paul, SN (2008) Analytical study of the ion-acoustic solitary waves in a drift plasma consisting of two-temperature electrons. Journal of Physics A: Mathematical and Theoretical 41, 335501.CrossRefGoogle Scholar
Ghosh, B, Paul, SN and Banerjee, S (2014) Instability of electron plasma waves in an electron-hole bounded quantum dusty plasma, world academy of science, engineering and technology. International Journal of Mathematical, Computational, Physical and Quantum Engineering 8, 954.Google Scholar
Gill, TS, Bala, P, Kaur, H, Saini, NS, Bansal, S and Kaur, J (2004) Ion-acoustic solitons and double-layers in a plasma consisting of positive and negative ions with non-thermal electrons. European Physical Journal D 31, 91100.CrossRefGoogle Scholar
Goldman, MV (1983) Progress and problems in the theory of type III solar radio emission. Solar Physics 89, 403442.CrossRefGoogle Scholar
Grabbe, C (1989) Wave propagation effects of broadband electrostatic noise in the magneto tail. Journal of Geophysical Research 94, 17299.CrossRefGoogle Scholar
Haas, H, Garcia, LG and Goedert, J (2003) Quantum ion-acoustic waves. Physics of Plasmas 10, 3858.CrossRefGoogle Scholar
Hoffmann, RA and Evans, DS (1968) Field-aligned electron bursts at high latitudes observed by OGO 4. Journal of Geophysical Research 73, 62016214.CrossRefGoogle Scholar
Hossen, MR and Mamun, AA (2014) Modeling of modified electro-acoustic solitary waves in a relativistic degenerate plasma. Journal of the Korean Physical Society 65, 20452052.CrossRefGoogle Scholar
Huibin, L and Kelin, W (2009) Solitons in an ion-beam plasma. Journal of Plasma Physics 44, 151165.CrossRefGoogle Scholar
Ikezi, H (1973) Experiments on ion acoustic solitary waves. Physics of Fluids 16, 1668.CrossRefGoogle Scholar
Karmakar, B, Das, GC and Singh, I (1988) Ion-acoustic solitary waves in ion-beam plasma with multiple-electron-temperatures. Plasma Physics and Controlled Fusion 30, 1167.CrossRefGoogle Scholar
Kaur, N, Singh, K and Saini, NS (2017) Effect of ion beam on the characteristics of ion acoustic Gardner solitons and double layers in a multicomponent superthermal plasma. Physics of Plasmas 24, 092108.CrossRefGoogle Scholar
Kaur, N, Singh, K, Ghai, Y and Saini, NS (2018) Nonplanar dust acoustic solitary and rogue waves in an ion beam plasma with superthermal electrons and ions. Plasma Science and Technology 20, 074009.CrossRefGoogle Scholar
Killian, TC (2007) Ultra cold neutral plasmas. Science 316, 705–8.CrossRefGoogle Scholar
Kremp, D, Bornath, T, Bonitz, M and Schlanges, M (1999) Quantum kinetic theory of plasmas in strong laser fields. Physical Review E 60, 4725.CrossRefGoogle ScholarPubMed
Krivoruchko, SM, Fainberg, VB, Shapiro, VD and Shevchenko, VI (1975) Solitary charge density waves in a magnetoactive plasma. Soviet JETP 40, 10391043.Google Scholar
Lonngren, KE (1983) Soliton experiment in plasma. Plasma Physics 25, 943.CrossRefGoogle Scholar
Madelung, E (1927) Quantentheorie in hydrodynamischer Form. Zeitschrift für Physik 40, 322326.CrossRefGoogle Scholar
Mamun, AA and Shukla, PK (2010) Solitary waves in an ultra relativistic degenerate dense plasma. Physics of Plasmas 17, 104504.CrossRefGoogle Scholar
Manfredi, G, Hervieux, PA, Yin, Y and Crouseilles, N (2009) Collective electron dynamics in metallic and semiconductor nanostructures. In Massobrio, C, Bu-lou, H and Goyenex, C (eds), Advances in the Atomic-Scale Modeling of Nanosystems and Nanostructured Materials. Heidelberg: Springer, p. 1.Google Scholar
Marklund, M and Shukla, PK (2006) Nonlinear collective effects in photon-photon and photon-plasma interactions. Reviews of Modern Physics 78, 591640.CrossRefGoogle Scholar
Masood, W and Eliasson, B (2011) Electrostatic solitary waves in a quantum plasma with relativistically degenerate electrons. Physics of Plasmas 18, 034503.CrossRefGoogle Scholar
Misra, AP and Adhikary, NC (2011) Large amplitude solitary waves in ion-beam plasmas with charged dust impurities. Physics of Plasmas 18, 122112.CrossRefGoogle Scholar
Misra, AP and Bhowmik, C (2007) Nonplanar ion-acoustic waves in a quantum plasma. Physics Letters A 369, 90.CrossRefGoogle Scholar
Mondal, KK, Paul, SN and Roychowdhury, A (1998) Ion-acoustic solitons and shocks in negative ion-beam relativistic plasma. IEEE Transactions on Plasma Sciences 26, 987994.CrossRefGoogle Scholar
Mushtaq, A and Khan, SA (2007) Ion acoustic solitary wave with weakly transverse perturbations in quantum electron-positron-ion plasma. Physics of Plasmas 14, 052307.CrossRefGoogle Scholar
Paul, SN, Mondal, KK and Roychowdhury, A (1996) Effects of negative ions on the ion acoustic solitons and double layers in a relativistic plasma. Fizika B 5, 7384.Google Scholar
Paul, SN, Das, C, Paul, I, Bandyopadhyay, B, Chattopadhyaya, S and De, SS (2012) Ion acoustic solitary waves in an electron-ion-positron plasma. Indian Journal of Physics 86, 545553.CrossRefGoogle Scholar
Paul, I, Bhattacharya, SK, Paul, SN and Chatterjee, A (2016) Instability of ion-acoustic wave in a quantum dusty plasma bounded in finite geometry. Journal of Physical and Chemical Sciences 4, 14.Google Scholar
Paul, SN, Chatterjee, A and Paul, I (2017) Nonlinear propagation of ion-acoustic waves in self-gravitating dusty plasma consisting of non-isothermal two-temperature electrons. Indian Journal of Physics 91, 101107.CrossRefGoogle Scholar
Paul, SN, Roychowdury, A and Paul, I (2019) Modulation instability of bright envelope soliton and rogue waves in ultra-relativistic degenerate dense electron-ion-positron plasma. Plasma Physics Reports 45, 10111025.CrossRefGoogle Scholar
Saberian, E, Esfandyari-Kalejahi, A, Rastkar-Ebrahimzadeh, A and Afsari-Ghazi, M (2013) Propagation of ion-acoustic solitons in an electron beam-superthermal plasma system with finite ion-temperature: Linear and fully nonlinear investigation. Physics of Plasmas 20, 032307.CrossRefGoogle Scholar
Sah, OP and Manta, J (2009) Nonlinear electro-acoustic waves in quantum plasma. Physics of Plasmas 16, 032304.CrossRefGoogle Scholar
Sahu, B (2011) Quantum ion-acoustic solitary waves in weak relativistic plasma. Pramana 76, 933944.CrossRefGoogle Scholar
Schamel, H (1973) A modified Korteweg-de Vries equation for ion acoustic wavess due to resonant electrons. Journal of Plasma Physics 9, 377387.CrossRefGoogle Scholar
Shapiro, SD and Teukolsky, SA (1983) Black Holes, White Dwarfs and Neutron Stars. New York, NY: John Wiley & Sons.CrossRefGoogle Scholar
Shprits, YY, Subbotin, D, Drozdov, A and Usanova, M (2013) Unusual stable trapping of the ultra relativistic electrons in the Van Allen radiation belts. Nature Physics 9, 699703.CrossRefGoogle Scholar
Tagare, SG (1973) Effect of ion temperature on propagation of ion-acoustic solitary waves of small amplitudes in collisionless plasma. Plasma Physics 15, 1247.CrossRefGoogle Scholar
Vette, JI (1970) Summary of Particle Population in the Magnetosphere. Dordrecht: Reidel, p. 305.CrossRefGoogle Scholar
Washimi, H and Taniuti, T (1966) Propagation of ion-acoustic solitary waves of small amplitude. Physical Review Letters 17, 996998.CrossRefGoogle Scholar
Yajima, T and Wadati, M (1990) Solitons in electron beam plasma. Journal of the Physical Society of Japan 59, 2373248.CrossRefGoogle Scholar
Yashvir, , Tiwari, RS and Sharma, SR (1988) Dressed ion acoustic soliton in an ion-beam plasma system. Canadian Journal of Physics 66, 824829.CrossRefGoogle Scholar
Zank, GP and McKenzie, JF (1998) Solitons in an ion-beam plasma. Journal of Plasma Physics 39, 183191.CrossRefGoogle Scholar