Abstract
This paper introduces a novel model proposed by Wazwaz et al. in 2023, in the nonlinear optics literature. This contributes to advancing optical devices and technologies, particularly in telecommunications and laser systems. The characteristics of bright, dark, and periodic soliton solutions for the (2+1)-dimensional nonlinear Schrödinger equation with fourth-order nonlinearity and dispersion are explored in this paper. The relevance of these solutions lies in the study of nonlinear waves propagating in an inhomogeneous optical fiber. The soliton solutions are obtained through the implementation of three analytical methods: the Kudryashov method, the Bernoulli Sub-ODE method, and the Extended Direct Algebraic method. The bright, dark, and periodic soliton solutions are constructed by utilizing bilinear forms. Furthermore, the impact of variable coefficients on the structures of these solitons is analyzed. Graphical illustrations depict the propagation of bright, dark, and periodic solitons.
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References
Adem, A.R., Yildirim, Y., Yaşar, E.: Complexion solutions and soliton solutions: (2+1)-dimensional Date-Jimbo-Kashiwara-Miwa equation. Pramana 92(36), 1–12 (2019)
Ahmad, J., Mustafa, Z., Ur Rehman, S., Turki, N.B., Shah, N.A.: Solitary wave structures for the stochastic Nizhnik-Novikov-Veselov system via modified generalized rational exponential function method. Results Phys. 52, 106776 (2023)
Ali, K.K., Mehanna, M.S., Ali Akbar, M., Chakrabarti, P.: Analytical Soliton Solutions of the Coupled RadhakrishnanKundu-Lakshmanan Equation via Three Techniques. J. Math. (2022). https://doi.org/10.1155/2022/8419403
Ali, K.K., Omri, M., Mehanna, M.S., Besbes, H., Abdel-Aty, A.-H.: New families of soliton solutions for the(2+1)-dimensional nonlinear evolution equation arising in nonlinear optics. Alex. Eng. J. 68, 733–745 (2022)
Ali, A., Ahmad, J., Javed, S., Ur Rehman, S.: Analysis of chaotic structures, bifurcation and soliton solutions to fractional Boussinesq model. Phys. Scr. 98, 7 (2023)
Ali, K.K., AlQahtani, S.A., Mehanna, M.S., Bekir, A.: New optical soliton solutions for the (2+1) Fokas system via three techniques. Opt. Quant. Electron. 55, 638 (2023)
Ankiewicz, A., Akhmediev, N.: Higher-order integrable evolution equation and its soliton solutions. Phys. Lett. A 378, 358–361 (2014)
Ankiewicz, A., Soto-Crespo, J.M., Akhmediev, N.: Rogue waves and rational solutions of the Hirota equation. Phys. Rev. E 81(4), 046602 (2010)
Ankiewicz, A., Wang, Y., Wabnitz, S., Akhmediev, N.: Extended nonlinear Schrödinger equation with higher-order odd and even terms and its rogue wave solutions. Phys. Rev. E 89, 012907 (2014)
Bendahmane, I., Triki, H., Biswas, A., Alshomrani, A.S., Zhou, Q., Moshokoa, S.P., Belic, M.: Bright, dark and W-shaped solitons with extended nonlinear Schrodinger’s equation for odd and even higher-order terms. Superlattices Microstruct. 114, 53–61 (2018)
Biswas, A., Yildirim, Y., Yaşar, E., Zhou, Q., Moshokoa, S.P., Belic, M.: Optical soliton perturbation with quadratic-cubic nonlinearity using a couple of strategic algorithms. Chin. J. Phys. 56(5), 1990–1998 (2018)
Chettouh, S., Triki, H., El-Akrmi, A., Zhou, Q., Moshokoa, S.P., Ullah, M.Z., Biswas, A., Belic, M.: Dipole solitons in an extended nonlinear Schrödinder’s equation with higher-order even and odd terms. Optik 145, 644–649 (2017)
Darwish, A., El-Dahab, E.A., Ahmed, H., Arnous, A.H., Ahmed, M.S., Biswas, A., Guggilla, P., Yildirim, Y., Mallawi, F., Belic, M.R.: Optical solitons in fiber Bragg gratings via modified simple equation. Optik 203, 163886 (2020)
El-Ganaini, S., Kumar, S.: Symbolic computation to construct new soliton solutions and dynamical behaviors of various wave structures for two different extended and generalized nonlinear Schrödinger equations using the new improved modified generalized sub-ODE proposed method. Math. Comput. Simul. 208, 28–56 (2023)
Inc, M., Yusuf, A., Aliyu, A.I., Baleanu, D.: Fractional optical solitons for the conformable space-time nonlinear Schrödinger equation with Kerr law nonlinearity. Opt. Quant. Electron. 50, 139 (2018)
Iqbal, I., Rehman, H.U., Mirzazadeh, M., Hashemi, M.S.: Retrieval of optical solitons for nonlinear models with Kudryashov–slashhcs quintuple power law and dual-form nonlocal nonlinearity. Opt. Quant. Electron. 55(7), 588 (2023)
Jia, R.-R., Wang, Y.-F.: Dark soliton solutions for the coupled variable-coefficient fourth-order nonlinear Schrödinger equations in the inhomogeneous optical fiber. Wave Motion 114, 103042 (2022)
Kuppuswamy, P., Melvin, D., Manojkumar, L.: On the integrability aspects of the one-dimensional classical continuum isotropic Heisenberg spin chain. J. Math. Phys. 33(5), 1807–1816 (1992)
Li, L., Fajun, Yu., Jiaming, Yu.: Discrete solutions and interaction dynamics for coupled nonlocal discrete nonlinear Schrödinger equations in an inhomogeneous optical fiber. Wave Motion 122, 103207 (2023)
Muniyappan, A., Ravichandran, R., Manikandan, K.: A bookshelf layer model for anti-kink and kink pair solitons in the ferroelectric liquid crystal. J. Opt. (2023). https://doi.org/10.1007/s12596-023-01488-0
Muniyappan, A., Athira, O., Amirthani, S., Brintha, K., Biswas, A., Ekici, M., Dakova, A., Alshehri, H.M., Belic, M.R.: Peakon and cuspon excitations in optical fibers for eighth order nonlinear Schrödinger’s model. Optik 243, 167509 (2021)
Muniyappan, A., Hemamalini, D., Akila, E., Elakkiya, V., Anitha, S., Devadharshini, S., Biswas, A., Yildirim, Y., Alshehri, H.M.: Bright solitons with anti-cubic and generalized anti-cubic nonlinearities in an optical fiber. Optik 254, 168612 (2022)
Muniyappan, A., Amirthani, S., Chandrika, P., Biswas, A., Yildirim, Y., Alshehri, H.M., Maturi, D.A.A., Al-Bogami, D.H.: Dark solitons with anti-cubic and generalized anti-cubic nonlinearities in an optical fiber. Optik 255, 168641 (2022)
Muniyappan, A., Manikandan, K., Seadawy, A.R., Parasuraman, E.: Dynamical characteristics and physical structure of cusp-like singular solitons in birefringent fibers. Results Phys. 56, 107241 (2024)
Nisar, K.S., Ali, K.K., Inc, M., Mehanna, M.S., Rezazadeh, H., Akinyemi, L.: New solutions for the generalized resonant nonlinear Schrödinger equation. Results in Physics 33, 105153 (2022)
Qurashi, M.M.A., Yusuf, A., Aliyu, A.I., Inc, M.: Optical and other solitons for the fourth-order dispersive nonlinear Schrodinger equation with dual-power law nonlinearity. Superlattices Microstruct. 105, 183–197 (2017)
Rehman, H.U., Inc, M., Asjad, M.I., Habib, A., Munir, Q.: New soliton solutions for the space-time fractional modified third order Korteweg-de Vries equation. J. Ocean Eng. Sci. (2022). https://doi.org/10.1016/j.joes.2022.05.032
Rehman, H.U., Seadawy, A.R., Younis, M., Rizvi, S.T.R., Anwar, I., Baber, M.Z., Althobaiti, A.: Weakly nonlinear electron-acoustic waves in the fluid ions propagated via a(3+1)-dimensional generalized Korteweg-de-Vries-Zakharov-Kuznetsov equation in plasma physics. Results in Physics 33, 105069 (2022)
Rehman, U., Shafqat, A., Jamshad: Stability analysis and novel optical pulses to Kundu-Mukherjee-Naskar model in birefringent fibers. Int. J. Modern Phys. B (2024). https://doi.org/10.1142/S0217979224501923
Ruggieri, M.: Higher Order Nonlinear Schrödinger Equation: an exactly solvable nonlinear model for nonlinear optics and biological science, Pure and Applied Mathematics, (2017)
Shafqat-ur-Rehman, J.A.: Dynamics of optical and other soliton solutions in fiber Bragg Gratings with Kerr law and stability analysis. Arab. J. Sci. Eng. 48, 803–819 (2023)
Su, D., Yong, X., Tian, Y., Tian, J.: Breather and rogue wave solutions of an extended nonlinear Schrödinger equation with higher-order odd and even terms. Mod. Phys. Lett. B 32(26), 1850309 (2018)
Triki, H., Choudhuri, A., Porsezian, K., Tchofo Dinda, P.: Dark solitons in an extended nonlinear Schrödinger equation with higher-order odd and even terms. Optik 164, 661–670 (2018)
Triki, H., Zhou, Q., Liu, W., Biswas, A., Moraru, L., Yildirim, Y., Alshehri, H.M., Belic, M.R.: Chirped optical soliton propagation in birefringent fibers modeled by coupled Fokas-Lenells system. Chaos, Solitons & Fractals 155, 111751 (2022)
Triki, H., Sun, Y., Zhou, Q., Biswas, A., Yildirim, Y., Alshehri, H.M.: Dark solitary pulses and moving fronts in an optical medium with the higher-order dispersive and nonlinear effects. Chaos, Solitons & Fractals 164, 112622 (2022)
Tsoy, E.N., Suyunov, L.A.: Solitons of the generalized nonlinear Schrödinger equation. Physica D 414, 13269 (2020)
Ur Rehman, S., Ahmad, J.: Diverse optical solitons to nonlinear perturbed Schrödinger equation with quadratic-cubic nonlinearity via two efficient approaches. Phys. Scrip. 98, 3 (2023)
Ur Rehman, H., Seadawy, A.R., Younis, M., Yasin, S., Raza, S.T., Althobaiti, S.: Monochromatic optical beam propagation of paraxial dynamical model in Kerr media. Results Phys. 31, 105015 (2021)
Ur Rehman, H., Awan, A.U., Abro, K.A., Tag El Din, E.S.M., Jafar, S., Galal, A.M.: A non-linear study of optical solitons for Kaup-Newell equation without four-wave mixing. J. King Saud Univ. Sci. 34(5), 102056 (2022)
Ur Rehman, H., Awan, A.U., Allahyani, S.A., Tag-ElDin, E.S.M., Binyamin, M.A., Yasin, S.: Exact solution of paraxial wave dynamical model with Kerr Media by using \(\phi ^{6}\) model expansion technique. Results Phys. 42, 105975 (2022)
Ur Rehman, S., Bilal, M., Ahmad, J.: The study of solitary wave solutions to the time conformable Schrödinger system by a powerful computational technique. Opt. Quant. Electron. 54, 228 (2022)
Ur Rehman, H., Imran, M.A., Ullah, N., Akgül, A.: Exact solutions of (2+1)-dimensional Schrödinger’s hyperbolic equation using different techniques. Numer. Methods Partial Diff. Equa. 39, 6 (2023)
Ur Rehman, H., Iqbal, I., Hashemi, M.S., Mirzazadeh, M., Eslami, M.: Analysis of cubic-quartic-nonlinear Schrödinger’s equation with cubic-quintic-septic-nonic form of self-phase modulation through different techniques. Optik 287, 171028 (2023)
Ur Rehman, S., Ahmad, J., Muhammad, T.: Dynamics of novel exact soliton solutions to Stochastic Chiral Nonlinear Schrödinger Equation. Alex. Eng. J. 79, 568–580 (2023)
Wang, Z., Luo, C., Ling, X., Chen, L., Zhang, L.: An exact soliton-like solution of cubic-quintic nonlinear Schrödinger equation with pure fourth order dispersion. Results Phys. 31, 104880 (2021)
Wazwaz, A.-M., Gui-Qiong, X.: Bright, dark and Gaussons optical solutions for fourth-order Schrödinger equations with cubic-quintic and logarithmic nonlinearities. Optik 202, 163564 (2020)
Wazwaz, A.-M., Alyousef, H.A., Ismaeel, S.M.E., El-Tantawy, S.A.: Bright and dark optical modulated soliton solutions for the fourth-order(2+1)-dimensional Schrödinger equation with higher-order odd and even terms. Optik 277, 170708 (2023)
Wazwaz, A.-M., Alhejaili, W., AL-Ghamdi, A.O., El-Tantawy, S.A.: Bright and dark modulated optical solitons for a (2+1)-dimensional optical Schrödinger system with third-order dispersion and nonlinearity. Optik 274, 170582 (2023)
Yang, Y., Wang, X., Yan, Z.: Optical temporal rogue waves in the generalized inhomogeneous nonlinear Schrödinger equation with varying higher-order even and odd terms. Nonlinear Dyn. 81, 833–842 (2015)
Yildirim, Y.: Optical solitons of Biswas-Arshed equation by modified simple equation technique. Optik 182(3), 986–994 (2019)
Yildirim, Y.: Bright, dark and singular optical solitons to Kundu-Eckhaus equation having four-wave mixing in the context of birefringent fibers by using of trial equation methodology. Optik 182(7–8), 393–399 (2019)
Yildirim, Y.: Optical solitons with Biswas? Arshed equation by F-expansion method. Optik 227(4), 165788 (2021)
Yildirim, Y., Yaşar, E.: Multiple exp-function method for soliton solutions of nonlinear evolution equations. Chin. Phys. B 26(7), 070201 (2017)
Yildirim, Y., Yasar, E., Adem, A.R.: A multiple exp-function method for the three model equations of shallow water waves. Nonlinear Dyn. 89, 2291–2297 (2017)
Yin, H., Pan, Q., Chow, K.W.: Four-wave mixing and coherently coupled Schrödinger equations: Cascading processes and Fermi-Pasta-Ulam-Tsingou recurrence. Chaos 31, 083117 (2021)
Yin, H., Pan, Q., Chow, K.W.: Doubly periodic solutions and breathers of the Hirota equation: recurrence, cascading mechanism and spectral analysis. Nonlinear Dyn. 110(4), 3751–3768 (2022)
Yomba, E., Zakeri, G.-A.: N-soliton interactions in an extended Schrödinger equation with higher order of nonlinearities. Physica B 483, 26–36 (2016)
Younis, M., Iftikhar, M., Ur Rehman, H.: Exact Solutions to the Nonlinear Schrödinger and Eckhaus Equations by Modified Simple Equation Method, Journal of Advanced. Physics 3(1), 77–79 (2014)
Acknowledgements
The authors extend their appreciation to Taif University, Saudi Arabia, for supporting this work through project number (TU-DSPP-2024-73).
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Ali, K.K., Mohamed, M.S. & Mehanna, M.S. Bright, dark, and periodic soliton solutions for the (2+1)-dimensional nonlinear Schrödinger equation with fourth-order nonlinearity and dispersion. Opt Quant Electron 56, 1050 (2024). https://doi.org/10.1007/s11082-024-06830-9
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DOI: https://doi.org/10.1007/s11082-024-06830-9