Shock wave criterion for propagating solitary states in driven surface waves
Abstract
Highly localized solitary states are observed to propagate along the surface of a thin two-dimensional fluid layer. The states are driven by means of a spatially uniform, temporally periodic, vertical acceleration (Faraday experiment) in a highly dissipative fluid. These states are shown to be formed by coupled fronts that propagate, periodically, as shock waves. A criterion for their formation based on shock initiation is presented. Both the characteristic form and interaction dynamics of the solitary states can be understood in this picture.
- Publication:
-
Physical Review E
- Pub Date:
- March 2001
- DOI:
- Bibcode:
- 2001PhRvE..63c5302L
- Keywords:
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- 47.20.Gv;
- 47.20.Ky;
- 47.35.+i;
- 47.54.+r;
- Viscous and viscoelastic instabilities;
- Nonlinearity bifurcation and symmetry breaking