On head-on collisions between two solitary waves
- 15 May 1980
- journal article
- research article
- Published by Cambridge University Press (CUP) in Journal of Fluid Mechanics
- Vol. 98 (03), 509-525
- https://doi.org/10.1017/s0022112080000262
Abstract
We consider a head-on collision between two solitary waves on the surface of an inviscid homogeneous fluid. A perturbation method which in principle can generate an asymptotic series of all orders, is used to calculate the effects of the collision. We find that the waves emerging from (i.e. long after) the collision preserve their original identities to the third order of accuracy we have calculated. However a collision does leave imprints on the colliding waves with phase shifts and shedding of secondary waves. Each secondary wave group trails behind its primary, a solitary wave. The amplitude of the wave group diminishes in time because of dispersion. We have also calculated the maximum run-up amplitude of two colliding waves. The result checks with existing experiments.Keywords
This publication has 11 references indexed in Scilit:
- Obliquely interacting solitary wavesJournal of Fluid Mechanics, 1977
- Experiments on collisions between solitary wavesJournal of Fluid Mechanics, 1976
- Interactions of Solitary Waves –A Perturbation Approach to Nonlinear Systems–Journal of the Physics Society Japan, 1973
- A ninth-order solution for the solitary waveJournal of Fluid Mechanics, 1972
- An integral equation for unsteady surface waves and a comment on the Boussinesq equationJournal of Fluid Mechanics, 1971
- A computer study of finite-amplitude water wavesJournal of Computational Physics, 1970
- Stability of the Burgers Shock Wave and the Korteweg-de Vries SolitonIndiana University Mathematics Journal, 1970
- Method for Solving the Korteweg-deVries EquationPhysical Review Letters, 1967
- Shallow-water wavesJournal of Geophysical Research, 1962
- The second approximation to cnoidal and solitary wavesJournal of Fluid Mechanics, 1960