Surface oscillations and the surface thickness of classical and quantum droplets

We calculate the contribution from surface oscillations to the surface thickness of a liquid drop. The results are compared to those for a surface made plane by gravity. We find that the zero-point motion of the surface modes gives a contribution to the surface thickness which is independent of the drop radius R, and is in good agreement for liquid He⁴ with other estimates of the surface thickness. For classical droplets, the mean square displacement of the surface varies as log R, in accord with the plane surface results.