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One parameter family of Compacton Solutions in a class of Generalized Korteweg-DeVries Equations

arXiv:patt-sol/9307002 · doi:10.1103/PhysRevE.48.4843

Abstract

We study the generalized Korteweg-DeVries equations derivable from the Lagrangian: $ L(l,p) = \int \left( \frac{1}{2} φ_{x} φ_{t} - { {(φ_{x})^{l}} \over {l(l-1)}} + α(φ_{x})^{p} (φ_{xx})^{2} \right) dx, $ where the usual fields $u(x,t)$ of the generalized KdV equation are defined by $u(x,t) = φ_{x}(x,t)$. For $p$ an arbitrary continuous parameter $0< p \leq 2 ,l=p+2$ we find compacton solutions to these equations which have the feature that their width is independent of the amplitude. This generalizes previous results which considered $p=1,2$. For the exact compactons we find a relation between the energy, mass and velocity of the solitons. We show that this relationship can also be obtained using a variational method based on the principle of least action.

Latex 4 pages and one figure available on request