Add to ORKGA dual-frequency acoustic levitator containing water was developed for studying bubble and drop dynamics in low gravity. It was flown on USML-1 where it was used in the Glovebox facility. High frequency (21 or 63 kHz) ultrasonic waves were modulated by low frequencies to excite shape oscillations on bubbles and oil drops ultrasonically trapped in the water. Bubble diameters were typically close to 1 cm or larger. When such large bubbles are acoustically trapped on the Earth, the acoustic radiation pressure needed to overcome buoyancy tends to shift the natural frequency for quadrupole (n = 2) oscillations above the prediction of Lamb's equation. In low gravity, a much weaker trapping force was used and measurements of n = 2 and 3 mode frequ...
The motion of bubbles in an ultrasonic field is a fundamental physical mechanism in most application...
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The resonant frequency shift, δf, of an acoustic resonator by a small spheroidal obstacle is calcula...
Due to the increasing interest in space exploration, management of two-phase flows in the absence of...
Multiphase flows management is a major challenge in many space applications given the different grav...
Single bubble dynamics are investigated using acoustic techniques for isolation and manipulation. Th...
Nonlinear phenomena associated with the dynamics of free drops and bubbles are investigated analytic...
Oceanic bubble plumes caused by ship wakes or breaking waves disrupt sonar communi- cation because o...
An experimental study was conducted of the nonlinear coupling between the surface and volume modes ...
The principal objectives of this study are to determine how gravity affects the emission of light fr...
A simple model of a small bubble floating at the surface of a liquid before bursting is considered. ...
Basic facts on the dynamics of bubbles in water are presented. Measurements on the free and forced r...
The response of an air bubble surrounded by a liquid in asealed cell submitted to vibrations was inv...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Include...
This paper details an investigation into the characteristic ‘plink’ sound produced by water droplets...
The motion of bubbles in an ultrasonic field is a fundamental physical mechanism in most application...
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The resonant frequency shift, δf, of an acoustic resonator by a small spheroidal obstacle is calcula...
Due to the increasing interest in space exploration, management of two-phase flows in the absence of...
Multiphase flows management is a major challenge in many space applications given the different grav...
Single bubble dynamics are investigated using acoustic techniques for isolation and manipulation. Th...
Nonlinear phenomena associated with the dynamics of free drops and bubbles are investigated analytic...
Oceanic bubble plumes caused by ship wakes or breaking waves disrupt sonar communi- cation because o...
An experimental study was conducted of the nonlinear coupling between the surface and volume modes ...
The principal objectives of this study are to determine how gravity affects the emission of light fr...
A simple model of a small bubble floating at the surface of a liquid before bursting is considered. ...
Basic facts on the dynamics of bubbles in water are presented. Measurements on the free and forced r...
The response of an air bubble surrounded by a liquid in asealed cell submitted to vibrations was inv...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Include...
This paper details an investigation into the characteristic ‘plink’ sound produced by water droplets...
The motion of bubbles in an ultrasonic field is a fundamental physical mechanism in most application...
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The resonant frequency shift, δf, of an acoustic resonator by a small spheroidal obstacle is calcula...