Add to ORKGWe study the nozzle-free ejection of liquid droplets at controlled angles from a sessile drop actuated from two, mutually opposed directions by focused surface acoustic waves with dissimilar parameters. Previous researchers assumed that jets formed in this way are limited by the Rayleigh angle. However, when we carefully account for surface tension in addition to the driving force, acoustic streaming, we find a quantitative model that reduces to the Rayleigh angle only when inertia is dominant, and suggests larger ejection angles are possible in many practical situations. We confirm this in demonstrating ejection at more than double the Rayleigh angle. Our model explains the effects of both fluid and input parameters on experiments with a r...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
International audienceWhen an acoustic wave travels in a lossy medium such as a liquid, it progressi...
In this work, we experimentally investigate the suspension behavior of droplets subjected to standin...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
We exploit large accelerations associated with surface acoustic waves to drive an extraordinary flui...
A high-velocity fluid stream ejected from an orifice or nozzle is a common mechanism to produce liqu...
Surface acoustic wave atomization is a rapid means for generating micron and submicron aerosol dropl...
Nozzleless jetting of droplets with different jetting angles is a crucial requirement for 2D and 3D ...
We report an experimental and numerical characterization of three-dimensional acoustic streaming beh...
Surface acoustic wave (SAW) based technologies have recently been explored for various sensing and m...
Liquid jetting and fragmentation are important in many industrial and medical applications. Here, we...
International audienceIn the present contribution, we consider acoustically pulsated free jets with ...
This paper reports the numerical simulation and experimental characterization of three-dimensional a...
International audienceDrop generation from an axially vibrating nozzle exhibits a transition in drop...
A Coupled Level Set Volume of Fluid (CLSVOF) approach has been applied to investigate severe deforma...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
International audienceWhen an acoustic wave travels in a lossy medium such as a liquid, it progressi...
In this work, we experimentally investigate the suspension behavior of droplets subjected to standin...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
We exploit large accelerations associated with surface acoustic waves to drive an extraordinary flui...
A high-velocity fluid stream ejected from an orifice or nozzle is a common mechanism to produce liqu...
Surface acoustic wave atomization is a rapid means for generating micron and submicron aerosol dropl...
Nozzleless jetting of droplets with different jetting angles is a crucial requirement for 2D and 3D ...
We report an experimental and numerical characterization of three-dimensional acoustic streaming beh...
Surface acoustic wave (SAW) based technologies have recently been explored for various sensing and m...
Liquid jetting and fragmentation are important in many industrial and medical applications. Here, we...
International audienceIn the present contribution, we consider acoustically pulsated free jets with ...
This paper reports the numerical simulation and experimental characterization of three-dimensional a...
International audienceDrop generation from an axially vibrating nozzle exhibits a transition in drop...
A Coupled Level Set Volume of Fluid (CLSVOF) approach has been applied to investigate severe deforma...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
International audienceWhen an acoustic wave travels in a lossy medium such as a liquid, it progressi...
In this work, we experimentally investigate the suspension behavior of droplets subjected to standin...