acoustic radiation

Particles then bunch under the action of the acoustic radiation forces.

They say that one only need to create the beginning stages of collapse towards a dumbhole to observes the equivalent acoustic radiation.

The term can also refer to pressures generated by other forms of wave motion, e.g. acoustic radiation pressure.

Therefore we have a stimulated emission which means a lot of energy (e.g. acoustic radiation, phonons) is released at the same time.

Acoustic radiation force is a phenomenon associated with the propagation of acoustic waves in attenuating media.

A piston oscillating uniformly in a rigid baffle is the classic example to consider acoustic radiation.

Acoustic radiation force is a physical phenomenon resulting from the interaction of an acoustic wave with an obstacle placed along its path.

SASER is a device capable of emitting acoustic radiation.

The research uses ultrasound waves to create acoustic radiation pressure, which provides tactile feedback as users interact with the holographic object.

The magnitude, location, spatial extent, and duration of acoustic radiation force can be controlled to interrogate the mechanical properties of the tissue.

Eager D. Acoustic radiation from mild steel plates of various thicknesses and aspect ratios excited by a 120 tonne press.

Acoustic radiation (sound waves) can be emitted by using the process of sound amplification based on stimulated emission of phonons.

Acoustic radiation force-based imaging modalities are being studied to non-invasively characterize the liver without the need for liver biopsy.

Acoustic levitation is a method for suspending matter in a medium by using acoustic radiation pressure from intense sound waves in the medium.

Active targeting can be increased (enhanced microbubbles adhesion) by Acoustic radiation force using a clinical ultrasound imaging system in 2D-mode and 3D-mode .

Generally, the force exerted on the obstacle is evaluated by integrating the acoustic radiation pressure (due to the presence of the sonic wave) over its time-varying surface.

The acoustic radiations or auditory radiations are structures found in the brain, in the ventral cochlear pathway, a part of the auditory system.

The bubble continues to occupy more or less the same space due to the acoustic radiation force, the Bjerknes force, and the buoyancy force of the bubble.

The corresponding parts in a SASER device are the excitation or pumping mechanism, the active (amplifying) medium, and the feedback leading to acoustic radiation.

The Keller-Miksis equation takes into account the viscosity, surface tension, incident sound wave, and acoustic radiation coming from the bubble, which was previously unaccounted for in Lauterborn's calculations.

"Sir, acoustic tomography is a remote sensing technique which passes beams of acoustic radiation, in this case, ultrasonic pulse echoes, through the seafloor, allowing us to see objects buried below."

Researchers from the University of Tokyo have developed 3D holograms that can be "touched" through haptic feedback using "acoustic radiation" to create a pressure sensation on a user's hands (see future section).

Acoustic radiation force results from a transfer of momentum from an acoustic wave to tissue in the direction of wave propagation, arising from absorption and scattering of the wave.

In a - sound amplification by stimulated emission of acoustic radiation - device, a source (e.g. an electric field as a pump) produces sound waves (lattice vibrations, phonons) which travel through an active medium.

Acoustic Radiation Force Impulse (ARFI) Imaging uses acoustic radiation force to generate images of the mechanical properties of soft tissue.