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Optimal system, similarity solution and Painlevé test on generalized modified Camassa-Holm equation

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  • K. Krishnakumar

    (SASTRA Deemed to be University)

  • A. Durga Devi

    (SASTRA Deemed to be University)

  • V. Srinivasan

    (SASTRA Deemed to be University)

  • P. G. L. Leach

    (Durban University of Technology)

Abstract

We study the symmetry and integrability of a Generalized Modified Camassa-Holm Equation (GMCH) of the form $$\begin{aligned} u_{t}-u_{xxt}+2nu_{x}(u^2-u_{x}^2)^{n-1}(u-u_{xx})^2+(u^2-u_{x}^2)^{n}(u_{x}-u_{xxx})=0. \end{aligned}$$ u t - u xxt + 2 n u x ( u 2 - u x 2 ) n - 1 ( u - u xx ) 2 + ( u 2 - u x 2 ) n ( u x - u xxx ) = 0 . We observe that for all increasing values of $$n\in {\mathbb {R}}$$ n ∈ R , $${\mathbb {R}}$$ R denotes the set of real number, the above equation gives a family of equations in which nonlinearity is rapidly increasing as n increases. However, this family has similar form of symmetries, a commutator table, an adjoint representation, and a one-dimensional optimal system. Interestingly, we show that the resultant second-order nonlinear ODE generated from the GMCH equation is linearizable because it possesses maximal symmetries. Finally, we conclude that the GMCH family passes the Painlevé Test since the resultant third-order nonlinear ordinary differential equation passes the Painlevé Test. This family does, in fact, have a similar form of leading order, resonances and truncated series of solution too.

Suggested Citation

  • K. Krishnakumar & A. Durga Devi & V. Srinivasan & P. G. L. Leach, 2023. "Optimal system, similarity solution and Painlevé test on generalized modified Camassa-Holm equation," Indian Journal of Pure and Applied Mathematics, Springer, vol. 54(2), pages 547-557, June.
    • Handle: RePEc:spr:indpam:v:54:y:2023:i:2:d:10.1007_s13226-022-00274-1
    DOI: 10.1007/s13226-022-00274-1
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    References listed on IDEAS

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    1. Satapathy, Purnima & Raja Sekhar, T., 2018. "Optimal system, invariant solutions and evolution of weak discontinuity for isentropic drift flux model," Applied Mathematics and Computation, Elsevier, vol. 334(C), pages 107-116.
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