PT - JOURNAL ARTICLE
AU - Mondal, Gour Chandra
AU - Kumar, Krishna
TI - The effect of the Coriolis force on Faraday waves
DP - 2004 Mar 08
TA - Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences
PG - 897--908
VI - 460
IP - 2043
4099 - http://rspa.royalsocietypublishing.org/content/460/2043/897.short
4100 - http://rspa.royalsocietypublishing.org/content/460/2043/897.full
AB - Linear stability of the free surface of a thin sheet of a viscous fluid on a vertically vibrated rigid plate, in the presence of a uniform and slow rigid body rotation about the vertical axis, is presented. The Coriolis force delays the onset of parametrically excited surface waves. The creation of Faraday waves is always possible by raising the acceleration amplitude above a critical value, if the angular frequency ωv of the vertical vibration is much larger than four times the angular velocity ωr of the rotating plate. The surface waves may be harmonic or superharmonic with the imposed vibration in a thin sheet of slowly rotating viscous fluids at small vibration frequencies. This leads to the possibility of a tri–critical point at the onset of the surface instability in thin layers of a viscous fluid. Subharmonic, harmonic and superharmonic waves with different wavenumbers may coexist at the instability onset in the presence of a small Coriolis force, which is a qualitatively new result.