Tag Archives: NationalInstituteOfStandardsAndTechnology

Obama’s got a new cybersecurity plan, but what’s the point?

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There's been a lot of hot air blown across headlines this week about the big cybersecurity plan proposed by the White House's Commission on Enhancing National Cybersecurity (PDF). The plan for a commission to create long-term recommendations on beef...

Cybersecurity commission calls for increased investment and innovation

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In April, President Obama officially formed the The Commission on Enhancing National Cybersecurity to examine the country's electronic vulnerabilities in the wake of high-profile hacks like that of the Office of Personnel Management in 2015. Today th...

Scientists set new stability record with ytterbium atomic clock

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Scientists set new stability record with ytterbium atomic clock

The story of scientific advancement is rarely one of leaps and bounds. More often than not it's evolution over revolution, and the story of the so-called ytterbium atomic clock fits that bill perfectly. You may remember that in July researchers improved upon the standard, cesium-powered atomic clock model by using a network of lasers to trap and excite strontium; instead of losing a second every few years, the Optical Lattice Clock only lost a second every three centuries. Researchers at the National Institute of Standards and Technology made a pretty simple tweak to that model: replace the strontium with ytterbium and, voilà, another ten-fold increase in stability. Ten thousand of the rare-earth atoms are held in place, cooled to 10 microKelvin (just a few millionths of a degree above absolute zero) and excited by a laser "tick" 518 trillion times per second. Whereas the average cesium atomic clock must run for roughly five days to achieve its comparatively paltry level of consistency, the ytterbium clock reaches peak stability in just a single second.

That stability doesn't necessarily translate into accuracy, but chances are good that it will. That could could mean more accurate measurements of how gravity effects time and lead to improvements in accuracy for GPS or its future equivalents. The next steps are pretty clear, though hardly simple: to see how much farther the accuracy and stability can be pushed, then shrink the clock down to a size that could fit on a satellite or space ship. The one currently in use at the NIST is roughly the size of a large dining room table.

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Via: AFP

Physicists construct the most accurate clock the world has ever seen

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DNP clocks clocks all the time clocks

Calling a clock the most accurate ever may sound like hyperbole, but physicists at the National Institute of Standards and Technology in Boulder, Colorado have built a pair of devices that can claim that title. The team used an optical lattice to address an issue that plagues atomic clockmakers: constantly shifting frequencies that negatively impact the accuracy of their measurements. For example, a single second can be defined by the frequency of light emitted by an atom when electrons jump from one state to the next, but those frequencies change as the atom moves. The optical lattice essentially suspends atoms to minimize the Doppler effect produced by that movement. By combining the lattice with the element ytterbium, the group was able to create a device that measures time with a precision of one part in 1018. To put that into perspective, Andrew Ludlow, one of the paper's authors, said, "A measurement at the 1018 fractional level is equivalent to specifying the age of the known universe to a precision of less than one second." To read more about the team's work, you can find the full PDF at the source.

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Via: MIT Technology Review, Gizmodo

Source: Cornell University Library (PDF)

Reported new DARPA chief brings true geek, dash of green tech controversy

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Reported new DARPA chief brings true geek, dash of green controversy

Running DARPA has always demanded a certain amount of tech-savviness -- it created what ultimately became the internet, after all -- but it may get an extra coat of green paint with a new leader. The agency has reportedly taken on Arati Prabhakar as its new director, and Wired notes that she has a lot more than just the agency itself under her belt. Along with going so far as to found DARPA's Microelectronics Technology Office, she ran the National Institute of Standards and Technology (NIST) and eventually signed on with Interval Research the venture capital firm that backed the solar power company Solyndra as well as numerous other green tech projects. That last decision has drawn a fair share of flak: Solyndra got about $500 million of public funding and still went under. With that in mind, an anonymous senior military staffer claims that Prabhakar wasn't involved in the questionable government loan and went through "extensive vetting," so it's doubtful that the funding will cast the same shadow over her DARPA technology investments as it did for the outgoing director, Regina Dugan. Even so, there will no doubt be a close watch over Prabhakar if the appointment is made public, both for those who want to keep her honest as well as for the potentially huge amount of insight into clean energy and general technology that she can wield.

[Image credit: SRI]

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Reported new DARPA chief brings true geek, dash of green tech controversy originally appeared on Engadget on Wed, 11 Jul 2012 06:48:00 EDT. Please see our terms for use of feeds.

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NIST researchers store two images in a cloud of gas, open new possibilities for quantum memory

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Physicists have already been able to store a single image in a cloud of rubidium gas, but researchers from the National Institute of Standards and Technology in Maryland have now made a new breakthrough that could open up some new possibilities for quantum memory. As Technology Review's Physics arXiv blog reports, they've managed to store two sequential images in the cloud (not to be confused with "the cloud") and retrieve (or view) them at different times with about 90 percent accuracy -- something that could technically be called a movie. That was done using much the same technique that allows a single image to be stored in the gas, although storing multiple images apparently has the side effect of causing them to be retrieved in the reverse order of how they went in. As TR notes, however, even with that quirk, this new method could give rubidium gas a leg up over something like holographic storage, which has only been able to store and retrieve multiple images at the same time.

NIST researchers store two images in a cloud of gas, open new possibilities for quantum memory originally appeared on Engadget on Thu, 10 May 2012 18:40:00 EDT. Please see our terms for use of feeds.

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