Abstract
In this work, we present new two-mode extension to the coupled KdV–Schrodinger equations. This new model arises in many applications in the field of optics, communications and other engineering sciences. It describes the propagation of symmetric bidirectional solitary-waves and their interaction is dependent on a phase-velocity parameter. The celebrated Kudryashov-expansion method is used to find explicit solutions to the new model. The obtained solutions are analyzed by providing 2D and 3D plots and some physical properties are drawn.
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Alquran, M., Ali, M., Jadallah, H.: New topological and non-topological unidirectional-wave solutions for the modified-mixed KdV equation and bidirectional-waves solutions for the Benjamin Ono equation using recent techniques. J. Ocean Eng. Sci. (2021)
Aceves, A.B., De Angelis, C., Rubenchik, A.M., Turitsyn, S.K.: Multidimensional solitons in fiber arrays. Opt. Lett. 19(5), 329–331 (1994)
Alquran, M.: Physical properties for bidirectional wave solutions to a generalized fifth-order equation with third-order time-dispersion term. Results Phys. 28, 104577 (2021)
Alquran, M., Jaradat, I.: Multiplicative of dual-waves generated upon increasing the phase velocity parameter embedded in dual-mode Schrodinger with nonlinearity Kerr laws. Nonlinear Dyn. 96, 115–121 (2019)
Alquran, M., Yassin, O.: Dynamism of two-mode’s parameters on the field function for third-order dispersive Fisher: application for fibre optics. Opt. Quantum Electron. 50, 354 (2018)
Alquran, M., Sulaiman, T.A., Yusuf, A.: Kink-soliton, singular-kink-soliton and singular-periodic solutions for a new two-mode version of the Burger-Huxley model: applications in nerve fibers and liquid crystals. Opt. Quantum Electron. 53, 227 (2021a)
Alquran, M., Jaradat, I., Sulaiman, T.A., Yusuf, A.: Heart-cusp and bell-shaped-cusp optical solitons for an extended two-mode version of the complex Hirota model: application in optics. Opt. Quantum Electron. 53, 26 (2021b)
Alquran, M., Jaradat, I., Baleanu, D.: Shapes and dynamics of dual-mode Hirota-Satsuma coupled KdV equations: Exact traveling wave solutions and analysis. Chinese J. Phys. 58, 49–56 (2019)
Alquran, M., Yousef, F., Alquran, F., Sulaiman, T.A., Yusuf, A.: Dual-wave solutions for the quadratic-cubic conformable-Caputo time-fractional Klein–Fock–Gordon equation. Math. Comput. Simul. 185, 62–76 (2021). https://doi.org/10.1016/j.joes.2021.07.008
Biswas, A.: A pertubation of solitons due to power law nonlinearity. Chaos Solit. Fractals 12, 579–588 (2001)
Biswas, A.: Quasi-stationary optical solitons with non-Kerr law nonlinearity. Opt. Fiber Technol. 9, 224–229 (2003)
Biswas, A., Konar, S.: Soliton perturbation theory for the compound KdV equation. Int. J. Theor. Phys. 46, 237–243 (2007)
Bronski, J.C., Carr, L.D., Deconinck, B., Kutz, J.N.: Bose-Einstein condensates in standing waves: the cubic nonlinear Schrodinger equation with a periodic potential. Phys. Rev. Lett. 86(8), 1402–1405 (2001)
Bulut, H., Aksan, E.N., Kayhan, M., Sulaıman, T.A.: New solitary wave structures to the \((3+1)\)-dimensional Kadomtsev-Petviashvili and Schrodinger equation. J. Ocean Eng. Sci. 4(4), 373–378 (2019)
Eslami, M., Mirzazadeh, M.: Topological 1-soliton of nonlinear Schrodinger equation with dual power nonlinearity in optical fibers. Eur. Phys. J. Plus 128, 141–147 (2013)
Jaradat, I., Alquran, M.: Construction of solitary two-wave solutions for a new two-mode version of the Zakharov–Kuznetsov equation. Mathematics 8(7), 1127 (2020)
Jaradat, I., Alquran, M., Momani, S., Biswas, A.: Dark and singular optical solutions with dual-mode nonlinear Schrodinger’s equation and Kerr-law nonlinearity. Optik 172, 822–825 (2018)
Jaradat, I., Alquran, M., Ali, M., Al-Ali, N., Momani, S.: Development of spreading symmetric two-waves motion for a family of two-mode nonlinear equations. Heliyon 6(6), e04057 (2020)
Jin, L.: Application of variational iteration method to the fifth-order KdV equation. Int. J. Contemp. Math. Sci. 3, 213–221 (2008)
Karpman, V.I.: Lyapunov approach to the soliton stability in highly dispersive systems. II. KdV-type equations. Phys. Lett. A 2, 257–259 (1996)
Khater, A.H., Hassanb, M.M., Temsaha, R.S.: Cnoidal wave solutions for a class of fifth-order KdV equations. Math. Comput. Simulation 70, 221–226 (2005)
Korsunsky, S.V.: Soliton solutions for a second-order KdV equation. Phys. Lett. A 185, 174–176 (1994)
Kudryashov, N.A.: One method for finding exact solutions of nonlinear differential equations. Commun. Nonlinear Sci. Numer. Simul. 17(6), 2248–2253 (2012)
Mihalache, D.: Multidimensional localized structures in optics and Bose-Einstein condensates: A selection of recent studies. Rom. J. Phys. 59(3–4), 295–312 (2014)
Nore, C., Brachet, M.E., Fauve, S.: Numerical study of hydrodynamics using the nonlinear Schrodinger equation. Phys. D. 65, 154–162 (1993)
Rehman, S.U., Seadawy, A.R., Younis, M., Rizvi, S.T.R., Sulaiman, T.A., Yusuf, A.: Modulation instability analysis and optical solitons of the generalized model for description of propagation pulses in optical fiber with four non-linear terms. Modern Phys. Lett. B 35(06), 2150112 (2021)
Sulaiman, T.A., Yusuf, A.: Dynamics of lump-periodic and breather waves solutions with variable coefficients in liquid with gas bubbles. Waves Random Complex Media (2021). https://doi.org/10.1080/17455030.2021.1897708
Sulaiman, T.A., Younas, U., Yusuf, A., Younis, M., Bilal, M., Rehman, S.U.: Extraction of new optical solitons and MI analysis to three coupled Gross–Pitaevskii system in the spinor Bose-Einstein condensate. Modern Phys. Lett. B 35(06), 2150109 (2021)
Sulaiman, T.A., Bulut, H., Baskonus, H.M.: On the exact solutions to some system of complex nonlinear models. Appl. Math. Nonlinear Sci. 6(1), 29–42 (2021)
Triki, H., Biswas, A.: Dark solitons for a generalized nonlinear Schrodinger equation with parabolic law and dual power nonlinearity. Math. Methods Appl. Sci. 34, 958–962 (2011)
Trombettoni, A., Smerzi, A.: Discrete solitons and breathers with dilute Bose-Einstein condensates. Phys. Rev. Lett. 86(11), 2353–2356 (2001)
Wazwaz, A.M.: Compactons and solitary patterns solutions to fifth-order KdV-like equations. Phys. A 371, 273–279 (2006)
Wazwaz, A.M.: Two-mode fifth-order KdV equations: necessary conditions for multiple-soliton solutions to exist. Nonlinear Dyn. 87(3), 1685–1691 (2017)
Yavuz, M., Yokus, A.: Analytical and numerical approaches to nerve impulse model of fractional-order. Numer. Methods Partial Differential Eqs. 36(6), 1348–1368 (2020)
Yavuz, M., Sulaiman, T.A., Yusuf, A., Abdeljawad, T.: The Schrodinger–KdV equation of fractional order with Mittag-Leffler nonsingular kernel. Alexandria Eng. J. 60, 2715–2724 (2021)
Zhang, L.H., Si, J.G.: New soliton and periodic solutions of \((1+2)\)-dimensional nonlinear Schrodinger equation with dual power nonlinearity. Commun. Nonlinear Sci. Numer. Simul. 15, 2747–2754 (2010)
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Alquran, M. Optical bidirectional wave-solutions to new two-mode extension of the coupled KdV–Schrodinger equations. Opt Quant Electron 53, 588 (2021). https://doi.org/10.1007/s11082-021-03245-8
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DOI: https://doi.org/10.1007/s11082-021-03245-8