On a fourth-order envelope equation for deep-water waves-Reference-Cited by-同舟云学术

On a fourth-order envelope equation for deep-water waves

Published:1983-01 Issue: Volume:126 Page:1-11
ISSN:0022-1120
Container-title:Journal of Fluid Mechanics
language:en
Short-container-title:J. Fluid Mech.

Author:

Janssen Peter A. E. M.

Abstract

The ordinary nonlinear Schrödinger equation for deep-water waves (found by a perturbation analysis to O(ε3) in the wave steepness ε) compares unfavourably with the exact calculations of Longuet-Higgins (1978) for ε > 0·10. Dysthe (1979) showed that a significant improvement is found by taking the perturbation analysis one step further to O(ε4). One of the dominant new effects is the wave-induced mean flow. We elaborate the Dysthe approach by investigating the effect of the wave-induced flow on the long-time behaviour of the Benjamin–Feir instability. The occurrence of a wave-induced flow may give rise to a Doppler shift in the frequency of the carrier wave and therefore could explain the observed down-shift in experiment (Lake et al. 1977). However, we present arguments why this is not a proper explanation. Finally, we apply the Dysthe equations to a homogeneous random field of gravity waves and obtain the nonlinear energy-transfer function recently found by Dungey & Hui (1979).

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference20 articles.

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2. LONGUET-HIGGINS, M. S. 1978 The instabilities of gravity waves of finite amplitude in deep water. II. Subharmonics.Proc. R. Soc. Lond A360,489–505.

3. Fermi, E. , Pasta, J. & Ulam, S. 1955 Studies of nonlinear problems.Los Alamos Rep. LA-1940 (May 1955) [In Collected Papers of Enrico Fermi, vol. 2, pp. 978–988. University of Chicago Press, 1962.]

4. Dungey, J. C. & Hui, W. H. 1979 Nonlinear energy transfer in a narrow gravity-wave spectrum.Proc. R. Soc. Lond A 368,239–265.

5. Davidson, R. C. 1972 Methods in Nonlinear Plasma Theory .Academic.

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