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A single photon can excite two or more atoms at the same time, scientists found. And the light particle would do so in a very counterintuitive way, by summoning one or more companion photons out of nothingness.

If you think of particles of light, or photons, as billiard balls, it makes intuitive sense that a single photon can excite a single atom.

The new, less intuitive finding depends on the strange nature of quantum mechanics, and might help improve advanced machines known as quantum computers, researchers said. Prior work suggested that such machines could simultaneously perform more calculations in one instant than there are atoms in the universe. [Warped Physics: 10 Effects of Faster-than-Light Travel].

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Electronic computer technology has moved from valves to transistors to progressively more complex integrated circuits and processor designs, with each change bringing higher levels of performance. Now the advent of quantum computers promises a huge step increase in processor performance to solve certain types of problems.

Quantum computers are much faster than the world’s fastest supercomputers for some applications. In 1994 Peter Shor, an applied mathematician at Bell Laboratories, gave the encryption world a shock when he demonstrated an algorithm showing that quantum computers could threaten conventional prime number based encryption methods.

If an adversary conducts successful espionage raids on encrypted information stored in present technology computer installations, possibly through a compromised or issue-motivated individual who transfers it to portable media, it could become vulnerable to decryption by that rival’s quantum computers.

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Excellent write up on a paper submitted to the International Association for Cryptologic Research, by a group of UK and Belgian researchers are offering up a dig-sig scheme to assist in the addressing of Digital signatures (one of the fundamental parts of cryptography) in a post-quantum world. Expect the heat to rise on QC security as China’s launch date nears for the new Quantum Satellite.

Boffins smokin’ idea to share parts of keys to cook quantum-proof crypto.

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Nice.

When we think of synthetic biology, we often think of engineering a cell to give it some useful function. But SEED 2016 had quite a few speakers working outside of a biological cell. Some broke open cells to utilize just the cellular machinery to create “cell-free” systems. Others showed what could be done inside of the computer (in silico) to improve our understanding and prediction of synthetic gene networks. Here, we’re highlighting SEED speakers who showed how both of these approaches can advance synthetic biology.

Cell-free synthetic biology

Roy Bar-Ziv gave the first keynote at SEED 2016. His group at the Weissman Institute has made tremendous progress toward using cell-free expression that can mimic the behavior of real cells. Over the last 12 years they developed their ‘artificial cells’ using microfluidics and DNA arrayed on 2D substrates as DNA brushes. Each spot of DNA can be programmed the same as DNA in cells, and unlike other cell-free expression setups the microfluidics allows for dynamics.

Continue reading “SEED 2016: What can we do outside of a cell?” | >

Elon Musk has been a busy man lately as he works to transition the world to renewable energy and sustainable transportation with the goal of decarbonizing the global economy to meet the challenge of climate change. To meet that goal, Tesla will need to address “high passenger-density urban transport” – and Musk just confirmed plans to create a fully autonomous electric Minibus using the Model X chassis.

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Listen to famed biogerontolgist Aubrey de Grey explain the OncoSENS approach to curing ALT-Cancer (https://www.lifespan.io/campaigns/sens-control-alt-delete-cancer/) and how this is a vital part of overcoming the ill-effects of aging. This presentation is part of the Designing New Advances conference held by the Institute of Exponential Sciences in the Netherlands.

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Reason number 9,000 not to colonize Jupiter’s moon Io: not only is it a frigid hellscape covered in eruptive ice volcanoes and lashed by the gas giant’s powerful radiation belts, but the atmosphere just collapsed.

In fact, it collapses all the time, according to observations by astronomers at the Southwest Research Institute that are published today in the Journal of Geophysical Research. It turns out that every time Io is eclipsed by mighty Jupiter (which happens for about 2 hours a day), the surface temperature plummets and the moon’s sulfur dioxide (SO2)-rich atmosphere begins to deflate.

By the time Io is in full shadow, the atmosphere is like a punctured balloon, blanketing the moon’s surface in a thin coating of SO2 frost. As Io migrates back into the sun, this frost layer re-sublimates, and a new atmosphere develops.

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