Whenever possible and safe,
use high beam headlights.
Headlights also lost points if they resulted in excessive glare to oncoming vehicles, and low beams were weighted more heavily in the analysis because IIHS says most people do not
use their high beams at all.
By
using high beams more frequently, the system may allow earlier detection of pedestrians and obstacles.
Using high beams at night may make the difference between seeing certain obstacles on the road.
Motorists should avoid
using high beams at night in proximity to bicyclists to not temporarily blind them
If
using your high beams, dim headlights within 500 feet of an approaching vehicle or when following within 300 feet of another vehicle
When you are driving at night and you are in a dark area, you have to
use your high beams so you will be able to see animals that may cross the street and road curves that you did not anticipate.
There are a lot of drivers who
use high beams even during daytime; however, this may not be a safe practice because high headlight beams of vehicles can distract other drivers and will lead to possible accidents.
Not exact matches
The social work program, which shares the building, has
used high - tech classrooms to
beam courses to Hagerstown and Cecil County.
These machines
use lasers — or, in some cases,
high - power electron
beams — to draw shapes in a layer of metal powder by melting the material.
Using the same Ishida - patented GA technology as our flagship models, our side
beam system detects both metallic and non-metallic foreign bodies - such as glass, stones, rubber and dense plastic - to the same
high standards with settings you can control based on your application.
A
higher repetition rate is also key to
using a
high - power laser to drive
beams of particles.
More than 1,000 physicists from around the world will
use this
high - intensity
beam to more closely study neutrinos and fleeting particles called muons, both fundamental building blocks of our universe.
The new method
uses a scanning transmission electron microscope to bombard a film with a
beam of
high - energy particles.
Fusion energy requires confining
high energy particles, both those produced from fusion reactions and others injected by megawatt
beams used to heat the plasma to fusion temperatures.
This «
beam - forming» capability makes the antennas crucial to ultrafast wireless applications, because they can focus a stream of
high - frequency radio waves that would quickly dissipate
using normal antennas.
By
using this
high - power laser, it is now possible to generate all of the
high - energy quantum
beams (electrons, ions, gamma ray, neutron, positron).
Petawatt lasers are
used for study of basic science, generating such
high - energy quantum
beams as neutrons and ions, but only a few facilities in the world have Petawatt laser.
The team then took snapshots of the proteins within flies» wings
using a
high intensity x-ray
beam.
The researchers
used a coherent, nanoscale
beam of X-rays generated by the
high - flux synchrotron accelerator at the Advanced Light Source to interrogate each nanoparticle.
Radiation is a concern when working with X-rays, but she says researchers can accomplish a lot
using the
high - flux,
high - energy X-ray
beams at the APS.
To quantitatively test these questions, the team performed micro-CT scans of 12 fossil horse species then
used engineering «
beam bending» analysis to calculate how much stress each species» lower leg bones were experiencing during normal movement and
high - speed running.
Inertial confinement fusion (ICF) seeks to create those conditions by taking a tiny capsule of fusion fuel (typically a mixture of the hydrogen isotopes deuterium and tritium) and crushing it at
high speed
using some form of «driver,» such as lasers, particle
beams, or magnetic pulses.
A form of external
beam radiation therapy that delivers a few very large fractions of radiation
using new
high precision technology.
In addition, the researchers
used high - power nanosecond - pulsed laser
beams to modify the VO2 and make it magnetic.
These machines could even be
used to power spacecraft and generate
high - energy
beams to treat cancer.
The researchers at first fabricated
high - quality, atomically thin FeSe films, with thickness of between one monolayer (which corresponds to three - atoms thickness) and twenty monolayers (sixty - atoms thickness), by
using the molecular -
beam - epitaxy (MBE) method * 3.
A cutting - edge development of our centre is the
use of a focused proton
beam to create three - dimensional microstructures with
high aspect ratios and structural accuracy.
Imaging with more than one particle per shot will allow scientists to achieve much
higher hit rates, since it is easier to
use a wide
beam and hit many particles at a time, and will also avoid the need to separate out single - particle hits from multiple - particle hits and blank shots, which is another challenging requirement in traditional single - particle imaging.
Dwight Duston, director of science and technology at the Pentagon's Star Wars office, says the free - electron laser, once trumpeted as a weapon for destroying incoming enemy missiles, could be
used to produce a
beam of
high - quality X-rays that would reduce a woman's exposure to radiation during mammography.
DARPA is looking at more efficient technologies, like fiber lasers and liquid lasers, which could lead to smaller, more compact devices, while the Navy is researching a Free Electron Laser, an experimental technology that
uses high - speed electrons to generate an extremely powerful focused
beam of radiation.
SuperB would
use the massive magnets from the idle PEP - II collider at SLAC National Accelerator Laboratory in Menlo Park, California; would cost about $ 450 million; would smash particles at a slightly
higher rate; and would
used a spin - polarized electron
beam, says David Hitlin, a physicist at the California Institute of Technology in Pasadena who works on the project.
Unlike conventional lasers, which
use mirrors to amplify the light they create, free - electron lasers rely on a
high - quality electron
beam and an array of magnets.
Fiber lasers are useful because they tend to be stable and easy to
use, produce
high quality
beams, can emit at
high powers, and are easy to cool.
This 3D printing process produces metal parts layer by layer
using a
high - energy laser
beam to fuse metal powder particles.
To break this limit in crystal size, an extremely bright X-ray
beam was needed, which was obtained
using a so - called free - electron laser (FEL), in which a
beam of
high - speed electrons is guided through a magnetic undulator causing them to emit laser - like X-ray pulses.
This strategy makes
use of the intense electric fields associated with pulsed,
high - energy laser
beams to accelerate electrons and protons to «relativistic» velocities (i.e. speeds approaching that of light).
Researchers have now built a working tractor
beam that
uses high - amplitude sound waves to generate an acoustic hologram which can pick up and move small objects.
Ideas abounded:
using ion engines to ferry up the components of a moon base;
beaming power to robotic rovers on the Martian moon Phobos; attaching
high - power Hall effect thrusters to the International Space Station (ISS) and putting it on a Mars cycler orbit; preplacing chemical rocket boosters along an interplanetary trajectory in advance so astronauts could pick them up along the way;
using exploration pods like those in 2001: A Space Odyssey rather than space suits; instead of sending astronauts to an asteroid, bringing a (very small) asteroid to astronauts at the space station.
Using premier
beams of ultraviolet light at the ALS, a DOE national user facility for synchrotron radiation, the collaboration has reported the first demonstration of
high - temperature superconductivity in the surface of a topological insulator — a unique class of advanced materials that are electrically insulating on the inside but conducting on the surface.
But any experiment to prove that quantum illumination can boost the sensitivity of imaging has to
use weak signals, and creating materials capable of upconverting faint
beams with
high efficiency is technically daunting, Kumar says.
The
use of intermediate size nuclei is expected to result in intermediate energy density - not as
high as in earlier runs colliding two
beams of gold ions at the Relativistic Heavy Ion Collider (RHIC), but more than was produced by colliding a
beam of gold ions with much lighter deuterons.
The other part of the process, as explained in the paper, is
using the
high harmonic generation process to produce bright spatially coherent
beams from a tabletop laser, spanning the range from the vacuum ultraviolet (wavelengths less than 200 nm) to the soft X-ray region of the spectrum (wavelengths less than 10 nm)
Bruce Carlsten, of the Accelerator andOperations Technology Division's
High - Power Electrodynamics Group, is a pioneer in the production and use of high - brightness electron beams with applications that span a range of Laboratory programs and which have found widespread usage worldw
High - Power Electrodynamics Group, is a pioneer in the production and
use of
high - brightness electron beams with applications that span a range of Laboratory programs and which have found widespread usage worldw
high - brightness electron
beams with applications that span a range of Laboratory programs and which have found widespread usage worldwide.
Using fewer frames per second during digital fluoro is another factor as is using a higher voltage x-ray
Using fewer frames per second during digital fluoro is another factor as is
using a higher voltage x-ray
using a
higher voltage x-ray
beam.
May 25, 2017 - A technology originally developed to smooth out and pattern
high - powered laser
beams for the National Ignition Facility (NIF) can be
used to 3D print metal objects faster than ever before, according to a new study by Lawrence Livermore researchers.
Using PPPL computers, the team analyzed the data produced during 2010 NSTX experiments when scientists
used a diagnostic called a
high - k scattering device that
beams microwaves into the plasma and measures how they scatter.
If this
beam of
high - energy radiation is pointed toward Earth, these
high - energy pulses can be detected
using radio and gamma ray telescopes.
The
use of such a
high - energy proton
beam is ideal for imaging small tumors within patients for targeted proton therapy.
If this
beam of
high - energy radiation is pointed toward the Earth, these
high - energy pulses can be detected
using radio telescopes.