Effects of rotation and feedback control on Bénard-Marangoni convection

The effect of a feedback control on the onset of steady and oscillatory Bénard-Marangoni instability in a rotating horizontal fluid layer is considered theoretically using linear stability theory. It is demonstrated that generally the critical Marangoni number for transition from the no-motion (conduction) to the motion state can be drastically increased by the combined effects of feedback control and rotation. The role of the controller gain parameter on the Pr-Ta and Pr-R/Rc parameter spaces, dividing stability domains into which either steady or oscillatory convection is preferred, is determined.