Pattern formation in weakly damped parametric surface waves driven by two frequency components

WENBIN ZHANG; JORGE VIÑALS

doi:10.1017/S0022112097005387

Abstract

A quasi-potential approximation to the Navier–Stokes equation for low-viscosity fluids is developed to study pattern formation in parametric surface waves driven by a force that has two frequency components. A bicritical line separating regions of instability to either of the driving frequencies is explicitly obtained, and compared with experiments involving a frequency ratio of 1/2. The procedure for deriving standing wave amplitude equations valid near onset is outlined for an arbitrary frequency ratio following a multiscale asymptotic expansion of the quasi-potential equations. Explicit results are presented for subharmonic response to a driving force of frequency ratio 1/2, and used to study pattern selection. Even though quadratic terms are prohibited in this case, hexagonal or triangular patterns are found to be stable in a relatively large parameter region, in qualitative agreement with experimental results.

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Pattern formation in weakly damped parametric surface waves driven by two frequency components

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Pattern formation in weakly damped parametric surface waves driven by two frequency components

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