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Apr 25, 2019

Woman Found Frozen Solid Makes Incredible Full Recovery

Posted by in category: transportation

It was a freezing cold morning just before Christmas 1980 when cattle rancher, Wally Nelson, came across the frozen form of a woman in his front yard.

Wally knew who the woman was. It was his friend, 19-year-old Jean Hilliard who had been dating his best friend at the time. The night was 22 below zero, and the teenager had fallen while looking for shelter after a car accident.

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Apr 25, 2019

How Will the Universe End?

Posted by in category: space

Here are the possible ways that the universe could meet its maker.

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Apr 25, 2019

Engineers make injectable tissues a reality

Posted by in category: biotech/medical

A simple injection that can help regrow damaged tissue has long been the dream of physicians and patients alike. A new study from researchers at UBC Okanagan moves that dream closer to reality with a device that makes encapsulating cells much faster, cheaper and more effective.

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Apr 25, 2019

‘Nanofiber yarn’ makes for stretchy, protective artificial tissue

Posted by in category: biotech/medical

The human body is held together by an intricate cable system of tendons and muscles, engineered by nature to be tough and highly stretchable. An injury to any of these tissues, particularly in a major joint like the shoulder or knee, can require surgical repairs and weeks of limited mobility to fully heal.

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Apr 25, 2019

Inside Giant Atom Smasher, Physicists See the Impossible: Light Interacting with Light

Posted by in category: particle physics

Physicists thought this was impossible, until now.

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Apr 25, 2019

Researchers Just Measured an Atom with a Half-Life of 18 Sextillion Years

Posted by in categories: cosmology, particle physics

Deep inside a mountain in central Italy, scientists are laying a trap for dark matter. The bait? A big metal tank full of 3.5 tons (3,200 kilograms) of pure liquid xenon. This noble gas is one of the cleanest, most radiation-proof substances on Earth, making it an ideal target for capturing some of the rarest particle interactions in the universe.

It all sounds vaguely sinister; said Christian Wittweg, a doctoral candidate at the University of Münster in Germany, who has worked with the so-called Xenon collaboration for half a decade, going to work every day feels like “paying a Bond villain a visit.” So far, the mountain-dwelling researchers haven’t captured any dark matter. But they recently succeeded in detecting one of the rarest particle interactions in the universe. [11 Biggest Unanswered Questions About Dark Matter]

According to a new study published today (April 24) in the journal Nature, the team of more than 100 researchers measured, for the first time ever, the decay of a xenon-124 atom into a tellurium 124 atom through an extremely rare process called two-neutrino double electron capture. This type of radioactive decay occurs when an atom’s nucleus absorbs two electrons from its outer electron shell simultaneously, thereby releasing a double dose of the ghostly particles called neutrinos.

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Apr 25, 2019

Researchers transmit data via a semiconductor laser, opening the door to ultra-high-speed Wi-Fi

Posted by in category: internet

You’ve never heard Dean Martin like this.

Researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences transmitted a recording of Martin’s classic “Volare” wirelessly via a semiconductor laser—the first time a laser has been used as a radio transmitter.

In a paper published in the Proceedings of the National Academy of Sciences, the researchers demonstrated a laser that can emit microwaves wirelessly, modulate them, and receive external radio frequency signals.

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Apr 25, 2019

Fake Meat Startup Beyond Meat Says It’s Worth More Than $1 Billion

Posted by in category: food

Plant-based fake meat startup Beyond Meat has announced plans to go public sometime in early May, according to CNN. And based on the company’s plans, the public offering will likely value Beyond Meats at an impressive $1.2 billion.

That’s an extraordinary upswing — in addition to selling its increasingly-trendy meat alternative on grocery store shelves, the company recently partnered with both Carl’s Jr. and Del Taco, which could explain how the company is headed toward a coveted “unicorn” valuation.

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Apr 25, 2019

Surgeons Just Sent a Tiny, Autonomous Bot Into a Heart Valve

Posted by in categories: biotech/medical, robotics/AI

In a world first, surgeons just used a self-navigating surgery robot in an experimental surgery — training a robotic catheter to find its way to a leaky valve in a pig’s heart.

The new robot, described in research published in the journal Science Robotics on Wednesday, marks the beginning of the transition from robotic surgical tools to true robot-assisted surgeries, where autonomous devices can actually take the load off of overburdened human doctors.

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Apr 25, 2019

A breakthrough in the study of laser/plasma interactions

Posted by in categories: biotech/medical, supercomputing

A new 3D particle-in-cell (PIC) simulation tool developed by researchers from Lawrence Berkeley National Laboratory and CEA Saclay is enabling cutting-edge simulations of laser/plasma coupling mechanisms that were previously out of reach of standard PIC codes used in plasma research. More detailed understanding of these mechanisms is critical to the development of ultra-compact particle accelerators and light sources that could solve long-standing challenges in medicine, industry, and fundamental science more efficiently and cost effectively.

In laser-plasma experiments such as those at the Berkeley Lab Laser Accelerator (BELLA) Center and at CEA Saclay—an international research facility in France that is part of the French Atomic Energy Commission—very large electric fields within plasmas that accelerate particle beams to over much shorter distances when compared to existing accelerator technologies. The long-term goal of these laser-plasma accelerators (LPAs) is to one day build colliders for high-energy research, but many spin offs are being developed already. For instance, LPAs can quickly deposit large amounts of energy into solid materials, creating dense plasmas and subjecting this matter to extreme temperatures and pressure. They also hold the potential for driving free-electron lasers that generate light pulses lasting just attoseconds. Such extremely short pulses could enable researchers to observe the interactions of molecules, atoms, and even subatomic particles on extremely short timescales.

Supercomputer simulations have become increasingly critical to this research, and Berkeley Lab’s National Energy Research Scientific Computing Center (NERSC) has become an important resource in this effort. By giving researchers access to physical observables such as particle orbits and radiated fields that are hard to get in experiments at extremely small time and length scales, PIC simulations have played a major role in understanding, modeling, and guiding high-intensity physics experiments. But a lack of PIC codes that have enough computational accuracy to model laser-matter interaction at ultra-high intensities has hindered the development of novel particle and light sources produced by this interaction.

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