The limited - edition car is the first production car in the world to come equipped with
laser high beams.
With the new
laser high beams, one laser module per headlight generates a cone of light with twice the range of the all ‑ LED headlight.
As part of the new
laser high beams, one laser module per headlight generates a cone of light with twice the range of the all - LED headlamp.
As part of the new
laser high beams, one laser module per headlight generates a cone of light with twice the range of the all - LED headlamp at 600 metres.
It can be equipped with both LED matrix headlamps and
laser high beams... in Europe.
Audi is teasing us now with an exclusive edition of the 2017 R8 V10 plus, that features...
laser high beams.
The exclusive edition of 25 R8s will come with full LED headlights with
a laser high beam module.
The new Singleframe grille, HD Matrix LED headlights with
laser high beam, 21 - inch wheels, full - width LED tail lights and active rear spoiler are the 2018 Audi A7 Sportback's exterior highlights.
From the standard LED headlights on the R8 V10 plus Coupe with available Audi
laser high beam technology, to the sharp 19 - inch 5 - double - spoke design wheels, the R8 makes its presence felt with sport - savvy design details.
Audi's
laser high beam headlights finally make it to the U.S., Hyundai's new Tucson Night Edition and the first...
Not exact matches
Innovations also abound in selective
laser sintering and stereo lithography, both of which operate much like a
laser printer, with
high - powered
beams of light carving and hardening shapes from a bed of resin.
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.
Senate President Donald Williams, the
highest - ranking senator, said his 22 - member Democratic caucus is focused like a
laser beam on trying to kick - start the still - sluggish economy and reduce the state's unemployment rate.
A
higher repetition rate is also key to using a
high - power
laser to drive
beams of particles.
Other photons from the
laser beam would ricochet off the electrons and be boosted into
high - energy gamma rays.
To kick - start the reaction, the plan is to convert energy from
high - power
laser beams into heat and then X-rays, which will compress a pellet of deuterium and tritium to force the nuclei together.
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 researchers focused the smaller
laser beams through the cloud of ultracold atoms and found that each
beam's focus — the point at which the
beam's intensity was
highest — attracted a single atom, essentially picking it out from the cloud and holding it in place.
«LFEX
laser» enables us to generate
high energy pulses of quantum
beams with large current, and one can expect such medical applications as particle
beam cancer therapy and non-destructive inspection for bridges and etc. (or defect inspection by gamma - ray
beam and neutrons).
They then exposed the evolving quantum system to a third
laser beam to try and excite the atoms into what is known as a Rydberg state — a state in which one of an atom's electrons is excited to a very
high energy compared with the rest of the atom's electrons.
After being split into five separate
beams, the
laser light illuminates sodium atoms naturally present in a layer within the mesosphere, about 90 kilometres
high.
Their technique aims a
high - powered
laser beam upward at a small, low - mass craft.
This is a schematic of the BIC
laser: a
high frequency
laser beam (blue) powers the membrane to emit a
laser beam at telecommunication frequency (red).
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.
By powering the membrane with a
high frequency
laser beam, researchers induced the BIC system to emit its own lower frequency
laser beam (at telecommunication frequency).
Imaging atomic - scale electron - lattice interactions: A
laser pulse (red
beam coming from right) gives electrons in a manganese oxide a «kick» of energy while a
high - energy electron
beam (blue) probes the atomic structure.
In addition, the researchers used
high - power nanosecond - pulsed
laser beams to modify the VO2 and make it magnetic.
The aim of firing this massive bank of
laser beams would be to either heat a chamber sufficiently
high — about 1029 degrees Kelvin — to create a false vacuum inside or compress a pair of spherical plates to within the Planck distance of each other, creating negative energy via the Casimir effect.
Hirose squeezed perovskite between two gem - quality diamonds, called anvils, and heated it with a powerful
laser beam to duplicate the
high temperatures and pressures thought to exist in the 125 - to 185 - mile - thick D» layer.
Consequently, it also produced a
laser beam of much
higher energy — 40 electronvolts, versus 25 electronvolts in argon gas.
«With its unique combination of powerful positron
beams and
high - power
lasers, FACET is the only place in the world where we can do this type of research,» Hogan says.
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.
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.
The
high temperatures at the interior of the Earth were created by heating samples with a
laser beam.
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).
By varying the target geometry and
laser properties, scientists could find optimal regimes to accelerate
high quality, directed ion
beams that are currently studied in accompanying experiments.
An international team of scientists has produced the first
high - powered, randomly polarised
laser beam with a «Q switch»
laser, which typically emits pulses of light so brief that they're measured in nanoseconds.
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)
According to the theory developed by the researchers in this study, the
laser beam creates a
high - energy molecular excitation, yet in order to do so it must absorb heat from the low - energy metallic component, which thus cools.
«We were selected to provide critical technologies that generate the
high - brightness and
high - repetition - rate electron
beam that is the first component in the superconducting accelerator chain, and the undulators that are the core of the free - electron
laser X-ray source.
High - end products like the LightHUB ®
laser beam combiner, the LedHUB ® highpower LED light engine as well as the QuixX ® picosecond pulsed diode
laser serve demanding applications in biotechnology, microscopy and many more.
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.
«LLE, with its 60 -
beam OMEGA and 4 -
beam high - energy OMEGA - EP
lasers, and Sandia, with the world's largest pulsed power machine, Z, provide unique capabilities to explore a range of fusion parameters previously unexplored.»
An additional continuous probing
beam (633 nm) was directed at the sample and focused on it collinearly with pump
laser beams, and its axial intensity was monitored by a
high - speed photodetector (PDA110AC, Thorlabs Inc.) and a 400 - MHz Lecroy digital oscilloscope.
A slightly meaningless victory, perhaps, but there is more to this R8 than
laser high -
beam lighting borrowed from this year's R18 e-tron quattro Le Mans racecar.