par Rednikov, Alexei 
;Colinet, Pierre ;Velarde, Manuel G. ;Legros, Jean Claude
Référence Journal of non-equilibrium thermodynamics, 25, 3-4, page (381-405)
Publication Publié, 2001
;Colinet, Pierre ;Velarde, Manuel G. ;Legros, Jean Claude Référence Journal of non-equilibrium thermodynamics, 25, 3-4, page (381-405)
Publication Publié, 2001
Article révisé par les pairs
| Résumé : | A linear analysis of oscillatory thermocapillary instability associated with deformation of the free surface in a finite-depth horizontal liquid layer heated from above is carried out. First, we numerically solve the problem and determine the conditions of marginal stability. Then, assuming that Galileo and Marangoni numbers are large enough while the capillary number is small enough, which corresponds to the time scales of transverse and longitudinal oscillations related to the free surface being much smaller than the characteristic viscous and thermal time scales, we construct an asymptotic solution of the problem. Two high-frequency overstable modes - transverse (capillary-gravity waves) and longitudinal - are identified and analyzed. Mode-mixing occurring at their possible resonance is also studied. |
