Lump Solution, Breather Soliton and More Soliton Solutions for a (2+1)-Dimensional Generalized Benjamin–Ono Equation

• Hongcai Ma ^[1] ; Shupan Yue ^[1] ; Yidan Gao ^[1] ; Aiping Deng ^[1]
  1. [1] Donghua University

     Donghua University

     China

     
• Localización: Qualitative theory of dynamical systems, ISSN 1575-5460, Vol. 22, Nº 2, 2023
• Idioma: inglés
• Enlaces
  • Texto completo
• Resumen

  • Our work is to discuss some new exact solutions of the (2+1)-dimensional generalized Benjamin–Ono (gBO) equation, which describes small amplitude long waves on the surface of shallow water. After careful consideration, lump, breather soliton and new solitons solutions of gBO equation are gained by using the Hirota bilinear method, the test function and the idea of the homogeneous balance, which have not been studied yet. By improving the expression of the test function, the quadratic function with two squares is increased to the quadratic function with three squares, and various lump solutions are obtained. Combining trigonometric function with hyperbolic function, breather soliton is derived. Obviously, sometimes the test function form of tanh–coth and tan–cot methods are so simple that it can’t get the desired result. Utilizing the improved tanh–coth and tan–cot methods, whose solutions depend on the parameter n, we can get more soliton solutions. Finally, by determining different parameters, one can draw the three-dimensional plots and density plots at different times. By observing these figures, we analyze the dynamic behavior of (2+1)-dimensional gBO equation in detail. These results can help us to understand nonlinear systems better.

• Referencias bibliográficas
  • 1. Liu, B., Zhang, X.E., Wang, B., Lü, X.: Rogue waves based on the coupled nonlinear Schrödinger option pricing model with external potential....
  • 2. Yin, M.Z., Zhu, Q.W., Lü, X.: Parameter estimation of the incubation period of COVID-19 based on the doubly interval-censored data model....
  • 3. Lü, X., Hui, H.W., Liu, F.F., Bai, Y.L.: Stability and optimal control strategies for a novel epidemic model of COVID-19. Nonlinear Dyn....
  • 4. Manakov, S.V., Zakharov, V.E., Bordag, L.A., Its, A.R., Matveev, V.B.: Two-dimensional solitons of the Kadomtsev–Petviashvili equation...
  • 5. Akhmediev, N.N., Ankiewicz, A.: Solitons, Nonlinear Pulses and Beams. Springer, Berlin (1997)
  • 6. Ma, W.X.: Integrable nonlocal nonlinear Schrödinger equations associated with so(3, R). Proc. Am. Math. Soc. Ser. B 9(01), 1–11 (2022)
  • 7. Ma, W.X.: Reduced non-local integrable nls hierarchies by pairs of local and non-local constraints. Int. J. Appl. Comput. Math 8(206),...
  • 8. Ma, W.X., Huang, Y.H., Wang, F.D.: Inverse scattering transforms for non-local reverse-space matrix non-linear Schrödinger equations. Eur....
  • 9. Satsuma, J., Ablowitz, M.J.: Two-dimensional lumps in nonlinear dispersive systems. J. Math. Phys. 20(7), 1496–1503 (1979)
  • 10. Zhao, Z.L., He, L.C.:M-lump and hybrid solutions of a generalized (2+1)-dimensional Hirota-SatsumaIto equation. Appl. Math. Lett....
  • 11. Ali, K.K., Yilmazer, R.: M-lump solutions and interactions phenomena for the (2+1)-dimensional KdV equation with constant and time-dependent...
  • 12. Ma, H.C., Cheng, Q.X., Deng, A.P.: Solitons, breathers, and lump solutions to the (2+1)-dimensional generalized Calogero-Bogoyavlenskii-Schiff...
  • 13. Ma, H.C., Yue, S.P., Deng, A.P.: Resonance Y-shape solitons and mixed solutions for a (2+1)- dimensional generalized Caudrey-Dodd-Gibbon-Kotera-Sawada...
  • 14. Ma, H.C., Gao, Y.D., Deng, A.P.: Fission and fusion solutions of the (2+1)-dimensional generalized Konopelchenko–Dubrovsky–Kaup–Kupershmidt...
  • 15. Zhao, Z.L., He, L.C.: Resonance Y-type soliton and hybrid solutions of a (2+1)-dimensional asymmetrical Nizhnik–Novikov–Veselov equation....
  • 16. Zhao, Z.L., He, L.C.: Nonlinear superposition between lump waves and other waves of the (2+1)- dimensional asymmetrical Nizhnik-Novikov-Veselov...
  • 17. Ma, H.C., Yue, S.P., Deng, A.P.: Nonlinear superposition between lump and other waves of the (2+1)-dimensional generalized Caudrey–Dodd–Gibbon–Kotera–Sawada...
  • 18. Wang, C.J., Fang, H., Tang, X.X.: State transition of lump-type waves for the (2+1)-dimensional generalized KdV equation. Nonlinear...
  • 19. Wang, C.J.: Spatiotemporal deformation of lump solution to (2+1)-dimensional KdV equation. Nonlinear Dyn. 84(2), 697–702 (2016)
  • 20. Wang, C.J., Fang, H.: General high-order localized waves to the Bogoyavlenskii–Kadomtsev– Petviashvili equation. Nonlinear Dyn. 100(1),...
  • 21. Ohta, Y., Yang, J.K.: General high-order rogue waves and their dynamics in the nonlinear Schrödinger equation. Proc. R. Soc. A 468(2142),...
  • 22. Ma, W.X.: Lump solutions to the Kadomtsev–Petviashvili equation. Phys. Lett. A 379(36), 1975–1978 (2015)
  • 23. Guo, Y.F., Dai, Z.D., Guo, C.X.: Lump solutions and interaction solutions for (2+1)-dimensional KPI equation. Front. Math. China 17,...
  • 24. Guo, Y.F., Guo, C.X., Li, D.L.: The lump solutions for the (2+1)-dimensional Nizhnik–Novikov– Veselov equations. Appl. Math. Lett...
  • 25. Chen, W., Chen, H.L., Dai, Z.D.: Rational homoclinic solution and rogue wave solution for the coupled long-wave-short-wave system. Pramana...
  • 26. Lü, X., Ma, W.X.: Study of lump dynamics based on a dimensionally reduced Hirota bilinear equation. Nonlinear Dyn. 85, 1217–1222 (2016)
  • 27. He, B., Meng, Q.: Lump and interaction solutions for a generalized (3+1)-dimensional propagation model of nonlinear waves in fluid...
  • 28. Younas, U., Sulaiman, T.A., Ren, J.L., Yusuf, A.: Lump interaction phenomena to the nonlinear illposed Boussinesq dynamical wave equation....
  • 29. Ma, H.C., Yue, S.P., Deng, A.P.: Lump and interaction solutions for a (2+1)-dimensional combined pKP-BKP equation in fluids. Mod....
  • 30. Abdou, M.A., Abulwafa, E.M.: The three-wave method and its applications. Nonlinear Sci. Lett. A 1(4), 373–378 (2010)
  • 31. Guo, Y.F., Li, D.L., Wang, J.X.: The new exact solutions of the Fifth-Order Sawada–Kotera equation using three wave method. Appl. Math....
  • 32. Chen, S.J., Lü, X.: Lump and lump-multi-kink solutions in the (3+1)-dimensions. Commun. Nonlinear Sci. Numer. Simul. 109, 106103 (2022)
  • 33. Ma, H.C., Gao, Y.D., Deng, A.P.: Dynamical analysis of diversity lump solutions to the (2+1)- dimensional dissipative Ablowitz–Kaup–Newell–Segure...
  • 34. Rizvi, S.T.R., Seadawy, A.R., Ali, K., Ashraf, M.A., Althubiti, S.: Multiple lump and interaction solutions for fifth-order variable coefficient...
  • 35. Ma, H.C., Wu, H.F., Ma, W.X., Deng, A.P.: Localized interaction solutions of the (2+1)-dimensional Ito equation. Opt. Quantum Electron....
  • 36. Wang, C.J., Dai, Z.D., Liu, C.F.: Interaction between kink solitary wave and rogue wave for (2+1)- dimensional Burgers equation. Mediterr....
  • 37. Yin, Y.H., Lü, X., Ma, W.X.: Bäcklund transformation, exact solutions and diverse interaction phenomena to a (3+1)-dimensional nonlinear...
  • 38. Wazwaz, A.M.: New (3+1)-dimensional Date–Jimbo–Kashiwara–Miwa equations with constant and time-dependent coefficients: Painlevé integrability....
  • 39. Ali, M.R., Sadat, R.: Construction of lump and optical solitons solutions for (3+1) model for the propagation of nonlinear dispersive...
  • 40. Hu, C.C., Tian, B., Zhao, X.: Rogue and lump waves for the (3+1)-dimensional Yu–Toda–Sasa– Fukuyama equation in a liquid or lattice....
  • 41. Chen, S.S., Tian, B., Zhang, C.R.: Odd-fold Darboux transformation, breather, rogue-wave and semirational solutions on the periodic background...
  • 42. Zhao, Z.L., He, L.C.: Lie symmetry, nonlocal symmetry analysis, and interaction of solutions of a (2+1)-dimensional KdV-mKdV equation....
  • 43. Chen, S.J., Lü, X., Li, M.G., Wang, F.: Derivation and simulation of the M-lump solutions to two (2+1)-dimensional nonlinear equations....
  • 44. Ma, W.X., Zhang, Y., Tang, Y.N.: Symbolic computation of lump solutions to a combined equation involving three types of nonlinear terms....
  • 45. Chen, S.J., Lü, X.: Observation of resonant solitons and associated integrable properties for nonlinear waves. Chaos Solitons Fract. 163,...
  • 46. Rao, J.G., Liu, Y.B., Qian, C., He, J.S.: Rogue waves and hybrid solutions of the Boussinesq equation. Z. Naturforsch. A. 72(4), 307–314...
  • 47. Benjamin, T.B.: Internal waves of permanent form in fluids of great depth. J. Fluid Mech. 29(3), 559–592 (1967)
  • 48. Ono, H.: Algebraic solitary waves in stratified fluids. J. Phys. Soc. Japan. 39(4), 1082–1091 (1975)
  • 49. Daripa, P.: Some useful filtering techniques for illposed problems. J. Comput. Appl. Math. 100(2), 161–171 (1998)
  • 50. Ursell, F.: The long-wave paradox in the theory of gravity waves. Proc. Cambridge Philos. Soc. 49, 685–694 (1953)
  • 51. Liu, W.J.: New solitary wave solution for the Boussinesq wave equation using the semi-inverse method and the exp-function method. Z. Naturforschung...
  • 52. Esfahani, A.: Remarks on solitary waves of the generalized two dimensional Benjamin-Ono equation. Appl. Math. Comput. 218, 308–323 (2011)
  • 53. Zhao, Z., He, L., Gao, Y.: Rogue wave and multiple lump solutions of the (2+1)-dimensional Benjamin– Ono equation in fluid mechanics....
  • 54. Case, K.M.: The Benjamin-Ono equation: a remarkable dynamical system. Ann. Nucl. Energy 7(4–5), 273–277 (1980)
  • 55. Tan, W., Dai, Z.D.: Spatiotemporal dynamics of lump solution to the (1+1)-dimensional Benjamin–Ono equation. Nonlinear Dyn. 89(4),...
  • 56. Ma, W.X., Li, C.X., He, J.S.: A second Wronskian formulation of the Boussinesq equation. Nonlinear Anal.TMA 70(12), 4245–4258 (2009)
  • 57. Hirota, R.: The direct method in soliton theory. Cambridge University Press, Cambridge (2004)
  • 58. Hossen, M.B., Roshid, H.O., Ali, M.Z.: Multi-soliton, breathers, lumps and interaction solution to the (2+1)-dimensional asymmetric...
  • 59. Feng, Y.Y., Bilige, S.: Multi-breather, multi-lump and hybrid solutions to a novel KP-like equation. Nonlinear Dyn. 106(1), 879–890 (2021)