Thermal capillary wave

Thermal capillary wave

Thermal motion is able to produce capillary waves at the molecular scale. At this scale,gravity and hydrodynamics can be neglected, and only the surface tension contribution isrelevant.

Capillary wave theory (CWT) is a classic account of how thermal fluctuations distort an interface.It starts from some intrinsic surface h(x,y,t)that is distorted. Its energy will beproportional to its area:

:E_mathrm{st}= sigma int dx, dy, left [sqrt{1+left( frac{dh}{dx} ight)^2+left(frac{dh}{dy} ight)^2}-1 ight] approx frac{sigma}{2} int dx, dy, left [ left( frac{dh}{dx} ight)^2+left(frac{dh}{dy} ight)^2 ight] , where the fist equality is the area in this (the Monge) representation, and the secondapplies for small values of the derivatives (surfaces not too rough). The constant of proportionality, sigma, is the surface tension.

By performing a Fourier analysis treatment, normal modes are easily found. Each contributes a energy proportional to the square of its amplitude; therefore, according to classical statistical mechanics, equipartition holds, and the mean energy of each mode will be kT / 2. Surprisingly, this result leads to a divergent surface (the width of the interface is bound to diverge with its area). This divergence is nevertheless very mild: even for displacements on the order of meters the deviation of the surface is comparable to the size of the molecules. Moreover, the introduction of an external field removes the divergence: the action of gravity is sufficient to keep the width fluctuation on the order of one molecular diameter for areas larger than about 1 mm2 (Ref. 2). [ J.S. Rowlinson and B. Widom "Molecular theory of capillarity 2002] .

References

ee also

* capillary wave


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