Journal article
Modelling of the temporal and spatial evolutions of weakly nonlinear random directional waves with the modified nonlinear Schrödinger equations
HD Zhang, C Guedes Soares, M Onorato, A Toffoli
Applied Ocean Research | Elsevier | Published : 2016
Abstract
The temporal and spatial evolutions of nonlinear wave group with an initial Gaussian envelope are theoretically studied under the governing of MNLS equations, demonstrating that the temporal and spatial versions of numerical model are not always consistent in the whole evolution process, particularly in the presence of strong nonlinearity. Moreover, a large set of numerical simulations, performed respectively by these two versions of numerical model, are systematically compared to mechanically generated waves with different initial directional spreading and Benjamin-Feir Index, mainly focusing on the evolution properties of surface elevations such as the coefficients of skewness and kurtosis..
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Awarded by Seventh Framework Programme
Funding Acknowledgements
The first author gratefully acknowledges O. Gramstad, L. Shemer and A. Slunyaev for interesting discussions and useful help in solving numerical problems related to the development of the present code of Dysthe formulation. Financial support by Portuguese Foundation for Science and Technology under the Grant SFRH/BD/98983/2013 is also acknowledged. M.O. was supported by ONR Grant No. 214N000141010991 and by MIUR Grant PRIN 2012BFNWZ2. M.O. thanks Dr. B. Giulinico for fruitful discussions.