The phrase
"intense beam" refers to a strong and concentrated ray of light or energy.
Full definition
Key things to notice within the game were the soft touches of light and the
more intense beams you would get from the sun.
In addition, PPPL scientists and engineers are applying knowledge gained in fusion research to other theoretical and experimental areas, including the development of plasma thrusters and the propagation of
intense beams of ions.
The University of Portsmouth and NREL collaborated with scientists at the Diamond Light Source in the United Kingdom, a synchrotron that
uses intense beams of X-rays 10 billion times brighter than the sun to act as a microscope powerful enough to see individual atoms.
She and her colleagues had initially been bombarding tissue
with intense beams of x-rays in search of scatter patterns that might provide an early warning of breast cancer.
The measurement comes from analyzing the only known pair of gravitationally bound pulsars, dense cores of dead stars that
emit intense beams of radio waves with the regularity of a nearly perfect clock.
A synchrotron is an important tool for many fields, as it
creates intense beams of light that are used to probe biological cells or materials.
LONDON, England — You can see it in Leonid Slutsky's eyes: the
same intense beam you see in the eyes of children as Christmas approaches.
The NSLS - II will produce
extremely intense beams of x-ray, ultraviolet, and infrared light, allowing researchers — including biologists, chemists, and environmental scientists — to peer into the nanoscale, probing the properties of materials at resolutions approaching 10 nanometers.
«We've pushed the capabilities of LCLS down in the sub-micron region by using extreme focusing that creates a more
intense beam on the tiny sample,» Boutet says.
«We
used intense beams of X-rays, electrons and infrared light to study the chemical reactions taking place in the diamond cell.»
These extreme objects advertise their presence
with intense beams of radiation, sweeping through the sky like cosmic lighthouses, with a regularity rivaling Earth's best clocks.
Pulsars are rapidly rotating neutron stars that
emit intense beams of radio waves along their misaligned magnetic axes.
This 100 million - year - old wasp was trapped in opaque amber until it was virtually set free by researchers at the European Synchrotron Radiation Facility (ESRF)-- a 1,000 - foot - wide particle accelerator that
creates intense beams of X-rays.
Undulators, with small and low field bending, create a narrower radiation cone with
more intense beam, with selected wavelengths or harmonics, which can be tuned by manipulating the magnetic field of the device by changing the gap.
As a result, these thin and
very intense beams of synchrotron light can be used to resolve the structure of matter at a level of detail impossible to reach with standard X-rays.
Another method is laser surgery, in which a small,
intense beam of light cuts through tissue by heating and vaporizing it.
In one scheme,
an intense beam would transform a metal target into a plasma, liberating electrons that, in turn, would eject protons from nuclei on the metal's surface.
«The idea is that if you build a more
intense beam, neutrino scientists from around the world will beat a path to your door,» said Fermilab Deputy Director Joe Lykken.
This bright flashlight sends
an intense beam of light that's bright up to 800 feet.
By the time the sound emerges, he said, it has been focused down to
an intense beam no thicker than a telephone pole.
Along the way, the whale's clicks pass through the «junk» — lens - shaped pockets of fat (yellow stripes) that focus the sound down to
an intense beam.
«We have developed a new technique where
an intense beam of X-rays from the synchrotron can probe a sample and deduce whether it is solid, liquid or partially molten within as little as a second, using a process known diffraction,» says Mohamed Mezouar from the ESRF, «and this is short enough to keep temperature and pressure constant, and at the same time avoid any chemical reactions.»
Creating an exotic state of matter, the Bose - Einstein condensate, out of light results in
an intense beam — could it reach wavelengths that lasers can't?
Optical lasers use quantum effects to produce
an intense beam of light of a single frequency, or color.
The planet orbits its parent sun — a pulsar, or a rapidly - spinning neutron star that emits
an intense beam of radio waves, dubbed PSR J1719 - 1438 — once every 2 hours and 10 minutes, the researchers report online today in Science.
Now, a team of engineers has come one step closer to the ideal by exploiting the phenomenon of photophoresis, in which small, airborne particles can be manipulated with
an intense beam of light.
The intense beams of light, expected to switch on this autumn, can probe biological samples or materials.
To study such things as the structures of crystals and reactions on the surfaces of semiconductors, scientists now demand more
intense beams of radiation than ever before.
A laser forces the light waves to travel in unison and focuses the glow into
an intense beam of light.
But making an atom with 114 protons and 184 neutrons would require
an intense beam of radioactive atoms, something that can't be produced with existing technology, says Michael Thoennessen of Michigan State University in East Lansing, who catalogues new isotopes.
It produces
an intense beam of slow - moving neutrons whose photon emissions can be detected with the same setup used for earlier precision measurements of the neutron's lifetime.
A Nobel Prize - winning physicist, he helped to develop the maser,
an intense beam of pure microwave radiation that later laid the foundation for the development of lasers.
At 40 metres, however,
the intense beam of a 200 - milliwatt laser can permanently damage eyes.
Released from the container, this light forms
an intense beam made up of photons of uniform frequency.
They focused up to six
intense beams of LLE's Omega - 60 laser, delivering a 1 nanosecond pulse of UV light onto one of the diamonds.
The problem bedeviling him was how to create
an intense beam of microwave energy to use as a probe.
Under these conditions, the interaction of
these intense beams and fields with plasmas is very rich, permeated by collective processes, relativistic nonlinearities and strong field physics.
In x-ray crystallography, protein crystals are bombarded with
intense beams of x-rays.
Wigglers, with small and high field bending, create a broad but
intense beam of incoherent light.
This was done through laser ablation, a process where
an intense beam is focused on the sample to destroy or remove material with pinpoint accuracy.
Class III laser therapy is the use of
an intense beam of laser light directed into tissues to reduce pain, increase blood flow, decrease inflammation and promote healing.
A laser is
an intense beam of light.
With Companion Laser Therapy, we «use
an intense beam of laser light directed into tissues to reduce pain, reduce inflammation, and accelerate healing.»
Laser Therapy is a surgery free, drug free, non-invasive treatment that uses
an intense beam of laser light directed into tissues to reduce pain and inflammation, and accelerate healing.
Class IV laser therapy is the use of
an intense beam of laser light directed into tissues to reduce pain, increase blood flow, decrease inflammation and promote healing.
The therapeutic laser is a small, handheld device that emits
an intense beam of light to painlessly target certain areas of the body that are experiencing pain or have suffered some type of trauma.