Measurement of the dispersion relation of a convectively unstable capillary jet under confinement
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2015Metadata
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Horvath, Camila
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Measurement of the dispersion relation of a convectively unstable capillary jet under confinement
Abstract
The dispersion relation of a confined capillary jet with negligible inertia is measured by Fourier
analysis of the jet radius. The real part of the dispersion relation, obtained through the
spatiotemporal Fourier spectrum, demonstrates that the phase velocity is independent of the
perturbation frequency, at least in the accessible range of frequencies. The imaginary part of the
dispersion relation, i.e., the spatial growth rate, is frequency dependent. To measure this
dependence, an external forcing is used to amplify modes with different frequencies. The spatial
growth rate is then obtained from the exponential growth of the corresponding Fourier mode. The
phase velocity and the spatial growth rate are found to increase and decrease, respectively, with
the capillary number and to depend only weakly on the degree of confinement. These observations
are consistent with a spatial instability that convects the perturbations downstream with velocity
proportional to the capillary number. The frequency of the dominant mode in the absence of forcing,
on the contrary, depends mainly on the degree of confinement, i.e., on the jet diameter, and only
weakly on the capillary number, which is consistent with the mode selection of the Rayleigh-Plateau
instability. Experimental measurements are compared to predicted dispersion relations reported in
the literature, and good qualitative agreement is observed.
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Patrocinador
CONICYT Chile
Anillo ACT 127
Fondecyt Iniciacion 11100204
CONICYT/PAI, Apoyo al retorno desde el extranjero 821320055
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Physics of Fluids Volumen: 27 Número: 11 Nov 2015
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