The photons emitted in the light
beam penetrate the skin, working on the tissue to stimulate nerve endings, cell growth, and blood flow.
The electron
beam penetrates the atomically thin walls of carbon nanotubes and enables time - resolved imaging of the reactions at the single - atom level.
Clinical studies have shown that a focused
beam penetrates much deeper into the tissues which allows for a more complete healing process.
Not exact matches
We are familiar with radio and television waves, and we are learning the physics of
penetrating light, as in laser
beams.
Initial speed of the charged particles would determine how deep in the body the particles would
penetrate, while the intensity of the
beam would determine the dose reaching the target.
They use a near - infrared laser
beam, which can
penetrate deep — in this context, deep means a centimeter or two — into the tissue, where a nanoparticle turns the near - infrared light into blue light, and that directs the activity of genetically engineered immune cells.
Ultrasonic waves can
penetrate the body relatively gently, he notes, so the sonic tractor
beam might be used to remove kidney stones and clots, deliver drug - laden capsules to various parts of the body, or control microsurgical instruments.
Ever since physicist Wilhelm Roentgen discovered the mysterious,
penetrating electromagnetic
beams in 1895, X-rays have changed the way we live.
The laser
beam must not
penetrate the metal.
Other useful properties of synchrotron light are: - high energy
beams to
penetrate deeper into matter - small wavelengths permit the studying of tiny features, e.g. bonds in molecules; nanoscale objects - synchrotron
beams can be coherent and / or polarised, permitting specific experiments - the synchrotron
beam can be made to flash at a very high frequency, giving the light a time structure.
Radiation therapy (sometimes called radiotherapy, x-ray therapy, or irradiation) is the treatment of disease using
penetrating beams of high energy waves or streams of particles called radiation.
One of the most common lasers used in veterinary medicine is the Class IV laser, which uses a
beam of laser light to
penetrate tissue deeply without damaging it.
These lines represent thickened pleural membranes that have been
penetrated tangentially (end - on) by the X-ray
beam but are thin and uniform in thickness.
It uses a
beam of laser light to deeply
penetrate tissue without damaging it.
Laser
beams send warm,
penetrating light into the tissues to decrease inflammation and pain.
Laser therapy uses light
beams at varying wavelengths to
penetrate the soft tissue and repair damaged cells.
The shotgun has a three - round burst, the gauss cannon can charge up a
penetrating beam attack and so on.