When researchers removed the hydrogen from the chamber, the detector sensed the change instantly, reopening the gaps and releasing hydrogen from the wires in milliseconds — thousands of times
faster than any current technology.
Sandia National Laboratories engineers have developed new fractal - like, concentrating solar power receivers for small - to medium - scale use that are up to 20 percent more effective at absorbing
sunlight than current technology.
All - optical computing devices promise to be faster and more
efficient than current technology, but they suffer from the drawback that signals have to be converted back and forth from optical to electrical.
Additionally the space magazine reported that some aerospace experts believe the Air Force is testing small satellites that could be
cheaper than current technologies.
His team has developed an innovative technique for detecting these reservoirs — a way of taking a «photo» of each individual cell hiding the virus — a significant breakthrough, as this approach is 1,000 times more
accurate than current technologies.
Our research indicates that its capacity for carbon dioxide capture is
greater than current technology, and the process is shaping up to be both more affordable and durable as well.»
And in the longer term, they could lead to bright, ultrafast, short - wavelength lasers that are much more compact, and perhaps even electronic devices that operate millions of times
faster than current technology, says David Reis, a co-author of the report and deputy director of the Stanford PULSE Institute, a joint institute of SLAC and Stanford.
ALBUQUERQUE, N.M. — Sandia National Laboratories engineers have developed new fractal - like, concentrating solar power receivers for small - to medium - scale use that are up to 20 percent more effective at absorbing
sunlight than current technology.
Now, a team led by researchers from the UCLA Henry Samueli School of Engineering and Applied Science has made major improvements in computer processing using an emerging class of magnetic materials called «multiferroics,» and these advances could make future devices far more energy -
efficient than current technologies.
This measures surface and subsurface defects 30 times faster
than current technology.