Edge waves

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Definition of Edge waves:
Obliquely incident waves trapped to the shore by wave refraction and reflection.
This is the common definition for Edge waves, other definitions can be discussed in the article


Principle of wave trapping to the shore by wave refraction and reflection. The wave crest is indicated in red at successive times (from left to right), black arrows indicate the wave propagation speed. The wave propagation speed is larger in deep water (dark blue) than in shallow water (light blue). Incident waves reflected at the shoreline without substantial dissipation therefore cannot escape to deep water but travel along the shore. Such wave are called edge waves.


Notes

Short-period waves dissipate in shallow water when breaking on the shore. However, longer period waves (infragravity waves) that do not break on the shore will be partially reflected. The reflected wave cannot escape to deep water (see the figure) and will travel along the shore as a so-called edge wave. Infragravity waves can gain energy in shallow water by nonlinear interaction processes within wave groups, see Infragravity waves. Infragravity waves can also generated by other causes, see Seiche.


Although generally true that the largest amplitude of edge waves is likely to be shoreward of the breaker line, the form of edge waves is not directly linked to the breaker line: they may decay in amplitude well within the breaking zone or may extend well beyond it. The cross-shore scale of the seaward decay is related to the alongshore wavelength.

The maximum amplitude of an edge wave occurs at the shoreline over a beach that slopes continuously seawards, with an exponential seawards decay over a linearly sloping beach. However over a barred beach the amplitude can become large over the bar crest.


See also