Why rogue waves occur atop abrupt depth transitions
Li, Yan; Draycott, Samuel; Zheng, Yaokun; Lin, Zhiliang; Adcock, Thomas A. A.; van den Bremer, Ton S.
Journal article, Peer reviewed
Accepted version
Åpne
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https://hdl.handle.net/11250/3018510Utgivelsesdato
2021Metadata
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Sammendrag
Abrupt depth transitions (ADTs) have recently been identified as potential causes of ‘rogue’ ocean waves. When stationary and (close-to-) normally distributed waves travel into shallower water over an ADT, distinct spatially localized peaks in the probability of extreme waves occur. These peaks have been predicted numerically, observed experimentally, but not explained theoretically. Providing this theoretical explanation using a leading-order-physics-based statistical model, we show, by comparing to new experiments and numerical simulations, that the peaks arise from the interaction between linear free and second-order bound waves, also present in the absence of the ADT, and new second-order free waves generated due to the ADT.