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arxiv: 1010.1651 · v1 · pith:2H6GLFZ3new · submitted 2010-10-08 · 🧮 math-ph · math.MP

Exact solutions to the modified Korteweg-de Vries equation

classification 🧮 math-ph math.MP
keywords equationmatrixdaggersolutionsconstantexacttimesintegral
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A formula for certain exact solutions to the modified Korteweg-de Vries (mKdV) equation is obtained via the inverse scattering transform method. The kernel of the relevant Marchenko integral equation is written with the help of matrix exponentials as $$\Omega(x+y;t)=Ce^{-(x+y)A}e^{8A^3 t}B,$$ where the real matrix triplet $(A,B,C)$ consists of a constant $p\times p$ matrix $A$ with eigenvalues having positive real parts, a constant $p\times 1$ matrix $B$, and a constant $1\times p$ matrix $C$ for a positive integer $p$. Using separation of variables, the Marchenko integral equation is explicitly solved yielding exact solutions to the mKdV equation. These solutions are constructed in terms of the unique solution $P$ to the Sylvester equation $AP+PA=BC$ or in terms of the unique solutions $Q$ and $N$ to the respective Lyapunov equations $A^\dagger Q+QA=C^\dagger C$ and $AN+NA^\dagger=BB^\dagger$, where the $\dagger$ denotes the matrix conjugate transpose. Two interesting examples are provided.

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