The energy flux in a finite-depth gravity-wave spectrum resulting from weak non-linear couplings between the spectral components is evaluated by means of a perturbation method. The fifth-order analysis yields a fourth-order effect comparable in magnitude to the generating and dissipating processes in wind-generated seas. The energy flux favours equidistribution of energy and vanishes in the limiting case of a white, isotropic spectrum. The influence on the equilibrium structure of fully developed wave spectra and on other phenomena in random seas is discussed briefly. © 1962, Cambridge University Press. All rights reserved
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
Numerical wave models describe the evolution of the wave energy spectrum under the combined action o...
The energy transfer in a finite-depth gravity-wave spectrum is investigated in the approximation of ...
A more efficient method of computing the nonlinear transfer in a surface wave spectrum is developed ...
The kinetic equation for non-linear wave-wave interactions for empirical wave energy spectra is di...
Four different parameterizations of the nonlinear energy transfer Snl in a surface wave spectrum are...
We performed numerical simulation of the kinetic equation describing behavior of an ensemble of rand...
We consider the energy transfer equation for well-developed ocean waves under the influence of wind,...
The energy level and its directional distribution are key observations for understanding the energy ...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
The formation of 'rogue' or 'freak' waves at the ocean surface is an important consideration for eng...
The energy level and its directional distribution are key observations for understanding the energy ...
This paper presents an efficient numerical algorithm for the nonlinear wave-wave interactions that c...
International audienceThe energy level and its directional distribution are key observations for und...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
Numerical wave models describe the evolution of the wave energy spectrum under the combined action o...
The energy transfer in a finite-depth gravity-wave spectrum is investigated in the approximation of ...
A more efficient method of computing the nonlinear transfer in a surface wave spectrum is developed ...
The kinetic equation for non-linear wave-wave interactions for empirical wave energy spectra is di...
Four different parameterizations of the nonlinear energy transfer Snl in a surface wave spectrum are...
We performed numerical simulation of the kinetic equation describing behavior of an ensemble of rand...
We consider the energy transfer equation for well-developed ocean waves under the influence of wind,...
The energy level and its directional distribution are key observations for understanding the energy ...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
The formation of 'rogue' or 'freak' waves at the ocean surface is an important consideration for eng...
The energy level and its directional distribution are key observations for understanding the energy ...
This paper presents an efficient numerical algorithm for the nonlinear wave-wave interactions that c...
International audienceThe energy level and its directional distribution are key observations for und...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
A high-resolution dataset of three irregular wave conditions collected on a gently sloping laborator...
Numerical wave models describe the evolution of the wave energy spectrum under the combined action o...