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W4327729052 abstract "In the propagation and evolution of sea waves, previous studies pointed out that the occurrence of the freak wave height is significantly related to the quasi-resonant four-wave interaction in the modulated waves. From numerical--experimental study over an uneven bottom, the nonlinear effect caused by the bathymetry change also contributes to the occurrence of extreme events in unidirectional waves. To comprehensively analyse the two-dimensional wavefield, this study develops an evolution model for a directional random wavefield based on the depth-modified nonlinear Schrödinger equation, which considers the nonlinear resonant interactions and the wave shoaling the shallow water. Through Monte Carlo simulation, we discuss the directional effect on the four-wave interaction in the wave train and the maximum wave height distribution from deep to shallow water with a slow varying slope. The numerical result indicates that the directional spreading has a dispersion effect on the freak wave height. In a shallow-water environment, this effect becomes weak, and the bottom topography change is the main influencing factor in the wave evolution." @default.
W4327729052 created "2023-03-18" @default.
W4327729052 creator A5056335831 @default.
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W4327729052 date "2023-03-17" @default.
W4327729052 modified "2023-10-18" @default.
W4327729052 title "Freak wave in a two-dimensional directional wavefield with bottom topography change. Part 1. Normal incidence wave" @default.
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W4327729052 doi "https://doi.org/10.1017/jfm.2023.73" @default.
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