Oh, wow. Aerodynamics research has never looked as pretty as it does with this new variation of an old technique for imaging supersonic shockwaves.
from Gizmodo http://ift.tt/1MqKpRu
via IFTTT
For everything from family to computers…
Oh, wow. Aerodynamics research has never looked as pretty as it does with this new variation of an old technique for imaging supersonic shockwaves.
from Gizmodo http://ift.tt/1MqKpRu
via IFTTT
Novel molecular structures are a first step toward economical carbon capture at a wide scale.
Although progress has been made in limiting carbon emissions in some countries, particularly in Europe and North America, it’s clear that finding ways to capture carbon dioxide from smokestacks—or from the atmosphere—is becoming increasingly imperative. Available systems dramatically increase the cost of electricity from plants equipped with the technology. And what to do with all that carbon dioxide after it’s separated remains problematic.
from New on MIT Technology Review http://ift.tt/1G4Gw00
via IFTTT
"Quiet Bird" model echoes modern stealth fighters, but it never took wing.
from Ars Technica http://ift.tt/1JrYkCc
via IFTTT
The design team at WASP (World’s Advanced Saving Project) will unveil what is being billed as the world’s largest 3D printer on Friday in Rieti, Italy. Dubbed the "Big Delta," this enormous device stands roughly 40 feet tall with a 20 foot diameter. But despite its size, the Big Delta is extremely efficient and uses only 100 watts of power. Its oversized design allows the Big Delta to quickly and easily print low-cost disaster-relief housing. What’s more, it can do so using locally-sourced materials (read: dirt and mud) which also acts to minimize construction costs. The WASP team also foresees employing this printer for non-disaster-related home building. According to a company release, the Big Delta help accommodate the estimated 4 billion people worldwide that will lack adequate housing by 2030.
Via: Digital Trends
Source: WASP
from Engadget http://ift.tt/1FxbLWq
via IFTTT
Dropbox may make it easy to sync files between devices, but if you’d like to skip the middle man, DAEMON Sync lets you do the same thing solely over local Wi-Fi.
from Lifehacker http://ift.tt/1VeU3Jo
via IFTTT
Photon detector
Teleportation isn’t real, at least not as it’s depicted in fiction. No one has ever made a material object — be it Harry Potter or Captain Kirk — physically disappear from one location and reappear elsewhere. But information … that’s a different story.
This week, scientists set a new record for quantum teleportation distance, instantaneously sending a message from one particle of light to another particle at the end of an optical fiber more than 62 miles (100 kilometers) long. The quantum memo moves from one particle to the other without actually traveling through the space between them. (In this case, the optical fiber was just used to hold two particles far apart.)
Developed by a researcher at a Japanese telecommunications company, the technology could boost efforts to protect information against hackers. It could be the basis of relay stations, called quantum repeaters, that securely teleport data over long distances when linked together.
“One of the first applications that people see for this sort of thing is some kind of secure communications link,†says Martin Stevens, an electronics engineer at the National Institute of Standards and Technology in Boulder, Colorado, and member of Hiroki Takesue’s team, which published the research in the October issue of Optica.
As amazing as this all sounds, teleportation between far-flung particles has been done before. The current distance record, 88 miles, belongs to a team in Vienna that performed a teleportation using lasers shot between two of the Canary Islands at night.
Light beams in the open sky could be useful for quantum communications with satellites. But they’re not terribly practical for everyday use on the ground, because sending information that way requires a clear line of sight.
“If there’s something in the way that’s going to block the light, like a building, that’s a problem,†says Stevens. “In an environment like a city, it’s much more convenient to be able to used optical fiber buried underground.â€
Forging long-distance links between light particles in fiber has proven challenging because light tends to get absorbed as it travels through fiber. Last year a group in Switzerland set the bar when they managed a 15-mile teleportation.
To break that record, Takesue’s team started with pairs of particles that had a spooky quantum connection to each other. The particles had been entangled, meaning that something happening to one particle could instantly change the behavior of the other, regardless of the distance between them. Even after the researchers sent one of the particles down 62 miles of spooled optical fiber, the spooky relationship remained intact.
Optical fibers
Groman123/Flickr CC By SA 2.0
A third particle from a laser pulsing in steady rhythm was then added into the mix. The researchers had encoded it with a single piece of binary data. Analogous to the one or zero stored in a bit in today’s computers, the pulse could be either exactly in time with the laser’s beat or delayed by a trillionth of a second.
That data particle then met up with one of the entangled particles (the one that didn’t travel down the optical fiber). As the particles got mixed up together, the data sometimes transferred.. A quarter of the time, the data particle and its new friend ended up in opposite states: one on time, one delayed. When that happened, the entangled particle far away down the optical fiber instantly adopted the state of its partner, the state opposite to that of the data particle.
That part of the transfer was instantaneous. But reading the state of that faraway particle required an additional message sent at the speed of light, placing a limit on how quickly teleportation can be used to send information.
A proof-of-principle experiment, the research has a number of technological hurdles to address before it can be used in practical applications. For one thing, it only works if the detectors are kept a mere degree above absolute zero, colder than the surface of Pluto. That requires bulky, expensive refrigerators.
“Teleportation has been one of the sexiest terms to come out of quantum information, but we’re not quite at the stage of seeing applications of this immediately,†says Aephraim Steinberg, a quantum physicist at the University of Toronto who was not involved in the new research.
But Steinberg and other researchers watching this and similar experiments being carried out around the world hope they will lead to a new way of communicating, and perhaps a quantum version of the Internet.
from Popular Science http://ift.tt/1MufO5L
via IFTTT