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Blog – Page 11601

Why biocomputing is proving that bio and technology integrated can do amazing things and will eventually get us to real Singularity. Now imaging, take what you have seen so far in technology today and add Quantum to that picture then add bio to that; then you will truly see amazing SINGULARITY.

Scientists have developed a material that can mimic cartilage and potentially encourage it to re-grow.

Cartilage is flexible connective tissue found in places such as in joints and between vertebrae in the spine. Compared to other types of connective tissue is not easy to repair.

Continue reading “Innovative Bio-glass Could Re-grow Cartilage” | >

I am told by a TOTEM manager that this is public news and so it can be blogged about — so here I would like to explain a rather cunning plan that the TOTEM and the CMS collaborations have put together to enhance the possibilities of a discovery, and a better characterization, of the particle that everybody hopes is real, the 750 GeV resonance seen in photon pairs data by ATLAS and CMS in their 2015 data.

What is TOTEM, first of all? Well, TOTEM is a collaboration that operates some high-rapidity detectors located around the CMS collision point at the LHC. And before you ask, rapidity is a measurement of how close to the beam a particle is emitted by a collision. Particles emitted orthogonally have rapidity equal to zero; particles traveling at angles increasingly close to the z axis (which we take to be the beam axis at the collision point) have higher positive or negative rapidity (the sign depends on the verse, and is determined by convention). Below is a schematic of the detector.

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What if you could alter a video of anyone to emulate facial and mouth movements that never existed in the source video—by yourself, at home, using a cheap webcam?

Meet Face2Face. Using RGB input from one video and mapped pixels from a second video, manipulating someone’s face—including distinct facial and mouth movements—has become incredibly easy. A team of researchers recently released a video showing what this looks like in real-time. While the method is still imperfect, it has major implications for future online content.

According to the team’s publication: “Our goal is to animate the facial expressions of the target video by a source actor and re-render the manipulated output video in a photo-realistic fashion.”

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KITCHENER — Big jumps in life expectancy will begin in as little as 10 years thanks to advances in nanotechnology and 3D printing that will also enable wireless connections among human brains and cloud computers, a leading futurist said Thursday.

“In 10 or 15 years from now we will be adding more than a year, every year, to your life expectancy,” Ray Kurzweil told an audience of 800 people at Communtech’s annual Tech Leadership conference.

Kurzweil, a futurist, inventor and author, as well as a director of engineering at Google, calls this “radical life extension.”

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Nice

A new three-dimensional map of part of the universe, created by a massive international team of researchers, is refuting the idea that Einstein’s theory of general relativity could be breaking down in the faraway universe, according to a new report in the Publications of the Astronomical Society of Japan.

“We tested the theory of general relativity further than anyone else ever has. It’s a privilege to be able to publish our results 100 years after Einstein proposed his theory,” study author Teppei Okumura, an astrophysicist from The University of Tokyo, said in a news release.

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Very promising. I hope within the next 10 years that Glioblastoma is eradicated.

A team from the International School for Advanced Studies (SISSA) in Trieste has obtained very promising results by applying gene therapy to glioblastoma. Tests in vitro and in vivo on mice provided very clear-cut results, and modelling demonstrates that the treatment targets at least six different points of tumour metabolism. Gene therapy, a technique that selectively attacks a tumour, might provide hope in the fight against this type of deadly cancer, for which surgery is practically impossible and chemo- and radiotherapy are ineffective against very aggressive recurrences. The study was published in the journal Oncotarget.

Only a few days ago, the press (especially in English-speaking countries) enthusiastically announced the publication of a study that described in great detail the genetics of breast cancer, a discovery that according to many marks a breakthrough in the battle against this cancer. This kind of news confirms the impression that in the near future the war against cancer will be fought on the battlefields of genetics. Italy too, is working on this front. At SISSA, for example, where Antonello Mallamaci and his group have just published highly promising results on the application of gene therapy against glioblastomas, a family of brain tumours among the most common and aggressive. A diagnosis of glioblastoma is literally equal to a very imminent death sentence: “surgery is rarely curative, as these tumours insinuate themselves in healthy tissues, and also chemo- and radiotherapy have little effectiveness.

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Quantum future discussed at London’s Royal Society Conference.

By Tushna Commissariat

Not a week goes by here at Physics World that we don’t cover some advance in quantum mechanics – be it another step towards quantum computing or error correction, or a new type of quantum sensor, or another basic principle being verified and tested at new scales. While each advance may not always be a breakthrough, it is fair to say that the field has grown by leaps and bound in the last 20 years or so. Indeed, it has seen at least two “revolutions” since it first began and is now poised on the brink of a third, as scientific groups and companies around the world race to build the first quantum computer.

With this in mind, some of the stalwarts of the field – including Peter Knight, Ian Walmsley, Gerard Milburn, Stephen Till and Jonathan Pritchard – organized a two-day discussion meeting at the Royal Society in London, titled “Quantum technology for the 21st century “, which I decided to attend. The meeting’s main aim was to bring together academic and industry leaders “in quantum physics and engineering to identify the next generation of quantum technologies for translational development”. As Knight said during his opening speech, the time has come to “balance the massive leaps that the science has made with actual practical technology”.

Continue reading “Looking toward the quantum-technology landscape of the future” | >