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Terahertz radiation, or T-rays, can do some really incredible stuff. It can be used to scan for tumors and bombs build ultrafast wireless networks and see through solid objects. As an imaging technology, however, T-ray cameras have always had a resolution limitation. Well, they used to. Researchers at the University of Exter has developed a new terahertz camera that can see at a microscopic level — and they want to use it to find defects in microchips.

This breakthrough kind of changes the game for terahertz imaging. The radiation has always been able to look through solid objects without damaging them — which is why it’s frequently used in the art world to look past the surface layer of various masterpieces — but resolution limitations kept it from being used to diagnose broken computer chips.

Project lead Rayko Stantchev says his team has effectively doubled the technology’s resolution, creating a proof-of-principle prototype that can see a microscopic image printed on a circuit board obscured by a thick silicon wafer. “With our device you could test the quality of microchips that have buried under optically-opaque materials,” Stantchev says. “Allowing you to tell if a hidden chip is broken without having to open it up.”

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I still believe we need some sort of Environmental Protection Oversight in Space with the space junk already much less with mining.

One of Europe’s smallest states, the Grand Duchy of Luxembourg, cast its eyes to the cosmos on Friday, announcing it would draw up a law to facilitate mining on asteroids.

Extracting precious metals, rare minerals and other valuable commodities on passing asteroids is a staple of science fiction, but Luxembourg says incentives are urgently needed to turn this dream into fact.

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So, all of this nextgen technology is wonderful; I truly see the vision and how to make it happen over time. However, what about the native people of the countries where this innovation and advancement is occurring? Are they getting the opportunity to be a part of the innovation story? Or, are they being left behind?

At Microsoft, we established many programs and outreach programs to engage many of the Native Americans across the US; I would like to encourage others to think about how can more be done to include the indigenous people of your countries to be part of the innovation/ evolution story. It truly is rewarding to so many.

The first Native Youth My Brother’s Keeper Hackathon saw students produce several games, apps.

Over the course of one weekend at the end of April in Albuquerque, NM, a few days of frantic organizing gave birth to the city’s first-ever Native Youth My Brother’s Keeper Hackathon, or #NativeMBK.

Continue reading “New Mexico hackathon provides template for Native STEM engagement” | >

Prior to the B2 bomber was released; many saw a black triangle object flying at dusk/ evening and no noise. Therefore, this article doesn’t surprise me because governments have to test their jets and other machines.

Just this week, Elon Musk said that he hopes to send people to Mars by 2024; now, Illinois residents are wondering if the black triangles they’re seeing in the sky are alien spacecraft or U.S. military technology. As The Verge reported, Musk announced his plans to ferry humanity to the red planet at the Code Conference on June 1. On May 22, an Illinois man reported seeing a black triangle craft in the sky at about 9:30 p.m.

Could the Illinois black triangle sighted in May (and the many other black triangle sightings that have occurred in the past) be related to plans to get humanity to Mars? Maybe.

Triangle UFO moves low over Illinois https://t.co/l1DkIyF7nS pic.twitter.com/kfTCx8Nzvu

Continue reading “Illinois Black Triangles: Are Mysterious Crafts In The Sky UFOs Or Secret Government Tech?” | >

Of course it can — why we have Biocomputing efforts today.

Living cells are capable of performing complex computations on the environmental signals they encounter.

These computations can be continuous, or analogue, in nature—the way eyes adjust to gradual changes in the light levels. They can also be digital, involving simple on or off processes, such as a cell’s initiation of its own death.

Synthetic biological systems, in contrast, have tended to focus on either analogue or digital processing, limiting the range of applications for which they can be used.

Continue reading “Gene circuits in live cells can perform complex computations” | >

Definitely aligns with my NextGen transformational roadmap leading to Singularity. 5th Revolution is with Quantum technology, BMI, early Biocomputing. 6th Revolution is Singularity with Biocomputing evolved and all things living are enhanced via both technology and Biocomputing and several cases of hybrids through synthetic genes and technology. So, no shocker here.

A team of researchers at MIT has developed a technique to integrate both analogue and digital computation in living cells, allowing them to form gene circuits capable of carrying out complex processing operations.

Living cells are capable of performing complex computations on the environmental signals they encounter.

These computations can be continuous, or analogue, in nature — the way eyes adjust to gradual changes in the light levels. They can also be digital, involving simple on or off processes, such as a cell’s initiation of its own death.

Continue reading “Complex analogue and digital computations in engineered bacterial cells” | >

Singapore, Singapore, June 03, 2016 –(PR.com)– Qatari scientists have recently discovered that an unmutated specific gene marker tends to indicate better prognosis for patients of metastatic colorectal cancer undergoing certain regiment of targeted therapies.

In a first published report of its kind on the subject, the study found that metastatic colorectal cancer patients with wild-type Kirsten Ras (KRAS) gene will likely have better survival rate upon receiving anti-epithelial growth factor receptors (EGFR) targeted therapy.

Meanwhile, the mutated-type KRAS metastatic colorectal cancer patients receiving anti-vascular endothelial growth factor (VEGF) therapy tend to have poorer survival outcomes, according to authors Kakil Ibrahim Rasul, Hind Elmalik, Mini Satheesh and Prem Chandra from National Center for Cancer Care and Research (NCCCR) in Doha, Qatar.

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It certainly is.

Quantum computing’s full potential may still be years away, but there are plenty of benefits to be realized right now.

So argues Vern Brownell, president and CEO of D-Wave Systems, whose namesake quantum system is already in its second generation.

Launched 17 years ago by a team with roots at Canada’s University of British Columbia, D-Wave introduced what it called “the world’s first commercially available quantum computer” back in 2010. Since then the company has doubled the number of qubits, or quantum bits, in its machines roughly every year. Today, its D-Wave 2X system boasts more than 1,000.

Continue reading “The quantum era has begun, this CEO says” | >