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After NASA’s New Horizons spacecraft collected a trove of data from its six-month-long flyby of Pluto, it set its sights on a much smaller object in the Kuiper Belt — an object dubbed 2014 MU69. Scientists believe MU69 will likely be a rather preserved outer solar system object, one that could provide clues as to how dwarf planets like Pluto may have formed billions of years ago. Now the New Horizons team reports that it has snapped a picture of its distance target and it did so weeks before MU69 was expected to be visible to the spacecraft.

New Horizons is still about 100 million miles away from MU69 and the researchers didn’t think they’d be able to see the small object with New Horizons’ onboard cameras until around mid-September. “We thought it’s worth giving it a shot a month early,” Hal Weaver, the lead scientist working with the New Horizons’ long distance camera, told the New York Times. Through a few dozen images, they were able to make out the very faint MU69, an object under 30-miles wide. Being able to see it will help scientists refine New Horizons’ trajectory, though since the object was right where they expected it to be, it appears the spacecraft’s path is already pretty spot on. “The whole team is jazzed now,” said Weaver.

The spacecraft is expected to reach MU69, also known as Ultima Thule, on January 1st, 2019. It will mark the first close-up exploration of a small Kuiper Belt object and will be the most distant exploration of a planetary body to date. “It really is like finding a needle in a haystack,” Weaver said in a statement about the images collected earlier this month. “In these first images, Ultima appears only as a bump on the side of a background star that’s roughly 17 times brighter, but Ultima will be getting brighter — and easier to see — as the spacecraft gets closer.”

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BREAKING.


NASA is working to contain a small leak onboard the International Space Station.

The issue appears to be contained and the people on board the station do not appear to be under any immediate threat. But it did trigger a real alarm through the floating lab, which sent astronauts scrambling to find the cause of the problem.

The crew was forced to check for the source of the leak by closing separate modules on the space station and finding which of them may be damaged. It was eventually tracked down in part of the Soyuz MS-09 spacecraft, which arrived at the station in early June carrying a crew of astronauts.

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NASA is partnering with U.S. companies and small businesses to develop technologies that have the potential to significantly benefit the economy and future NASA missions.

Recent announcements of selections for the agency’s Tipping Point solicitation and Phase II of NASA’s competitive Small Business Technology Transfer (STTR) program include several proposals with NASA’s Langley Research Center in Hampton, Virginia.

NASA selected 10 Tipping Point proposals totaling approximately $44 million and Langley is a partner on one $3 million proposal. The agency also selected 20 research and technology proposals — valued at $15 million — from 19 American small businesses for STTR Phase II and Langley will manage three of the selected proposals totaling $2.25 million.

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When it comes to fundamental physics, things can get spooky. At least that’s what Albert Einstein said when describing the phenomenon of quantum entanglement—the linkage of particles in such a way that measurements performed on one particle seem to affect the other, even when separated by great distances. “Spooky action at a distance” is how Einstein described what he couldn’t explain.

While quantum mechanics includes many mysterious phenomena like entanglement, it remains the best fundamental physical theory describing how matter and light behave at the smallest scales. Quantum theory has survived numerous experimental tests in the past century while enabling many advanced technologies: modern computers, digital cameras and the displays of TVs, laptops and smartphones. Quantum entanglement itself is also the key to several next-generation technologies in computing, encryption and telecommunications. Yet, there is no clear consensus on how to interpret what quantum theory says about the true nature of reality at the subatomic level, or to definitively explain how entanglement actually works.

According to Andrew Friedman, a research scientist at the University of California San Diego Center for Astrophysics and Space Sciences (CASS), “the race is on” around the globe to identify and experimentally close potential loopholes that could still allow alternative theories, distinct from quantum theory, to explain perplexing phenomena like quantum entanglement. Such loopholes could potentially allow future quantum encryption schemes to be hacked. So, Friedman and his fellow researchers conducted a “Cosmic Bell” test with polarization-entangled photons designed to further close the “freedom-of-choice” or “free will” loophole in tests of Bell’s inequality, a famous theoretical result derived by physicist John S. Bell in the 1960s. Published in the Aug. 20 issue of Physical Review Letters, their findings are consistent with quantum theory and push back to at least 7.

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