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Dec 22, 2016

Russia Tests a New Missile That Can Destroy Satellites

Posted by in category: satellites

This is concerning.


The Nudol could target U.S. navigation and communications satellites.

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Dec 22, 2016

News in brief: Groupon grief; Apple encryption delay; post-quantum crypto

Posted by in categories: encryption, mobile phones, quantum physics, security

Your daily round-up of some of the other security stories in the news

Groupon grief – was it password reuse?

The Telegraph reports that crooks have hijacked a number of Groupon accounts and used them to purchase expensive items like games consoles, iPhones and holidays. Some victims have suffered thousands of pounds of losses.

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Dec 22, 2016

2017 sneak peek: What the new year holds for science

Posted by in categories: quantum physics, science

She forgot one on QC; 2017 marks the year that Google shares with us the worlds 1st quantum device.


Expect researchers to glimpse an event horizon, continue striving for quantum supremacy and brace themselves for a political hangover.

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Dec 22, 2016

The sound of quantum vacuum

Posted by in categories: media & arts, quantum physics

Quantum mechanics dictates sensitivity limits in the measurements of displacement, velocity and acceleration. A recent experiment at the Niels Bohr Institute probes these limits, analyzing how quantum fluctuations set a sensor membrane into motion in the process of a measurement. The membrane is an accurate model for future ultraprecise quantum sensors, whose complex nature may even hold the key to overcome fundamental quantum limits. The results are published in the scientific journal, Proceedings of the National Academy of Sciences.

Vibrating strings and membranes are at the heart of many musical instruments. Plucking a string excites it to vibrations, at a frequency determined by its length and tension. Apart from the fundamental frequency — corresponding to the musical note — the string also vibrates at higher frequencies. These overtones influence how we perceive the ‘sound’ of the instrument, and allow us to tell a guitar from a violin. Similarly, beating a drumhead excites vibrations at a number of frequencies simultaneously.

These matters are not different when scaling down, from the half-meter bass drum in a classic orchestra to the half-millimeter-sized membrane studied recently at the Niels Bohr Institute. And yet, some things are not the same at all: using sophisticated optical measurement techniques, a team lead by Professor Albert Schliesser could show that the membrane’s vibrations, including all its overtones, follow the strange laws of quantum mechanics. In their experiment, these quantum laws implied that the mere attempt to precisely measure the membrane vibrations sets it into motion. As if looking at a drum already made it hum!

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Dec 22, 2016

How These Australian Scientists Proved Time Travel Is Possible

Posted by in categories: entertainment, quantum physics, time travel

Time travel is one of those concepts most often left for fantasy novels, movies, and long conversations about the what-ifs of life. But for many researchers, it’s been a plausible reality for decades.

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Dec 22, 2016

The hidden inferno inside your laser pointer

Posted by in categories: physics, space

If you thought that a kid’s room, a Norwegian Nobel Laureate and a laser pointer had nothing in common, two UA physicists are about to enlighten you.

It’s hard to believe, but after having unraveled many of the laws that make the universe tick, physicists still haven’t reached an agreement on whether something as seemingly simple as “hot” or “cold” can be measured in a system under certain circumstances.

“Imagine you threw an iceberg into the sun and right before it’s melted and gone, you wanted to know, ‘How hot is that iceberg at that moment?’ Would that be a meaningful question to ask?” says Charles Stafford, a professor in the Department of Physics in the UA’s College of Science. “According to traditional physics, it wouldn’t be.”

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Dec 22, 2016

Sidney Drell, Stanford theoretical physicist and national security expert, dies at 90

Posted by in categories: military, physics, policy, security

RIP dear friend.


A giant in the worlds of both academia and policy, Drell died Wednesday, Dec. 21, at his home in Palo Alto. He was 90 years old.

“An accomplished physicist, his contributions to improve national and international security made our world a better place,” said Tom Gilligan, director of the Hoover Institution at Stanford in a statement. “We are especially grateful for Sid’s relentless dedication to eliminating the threat posed by nuclear weapons and know that his important work will continue to frame the issue.”

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Dec 22, 2016

Experts split on how soon quantum computing is coming, but say we should start preparing now

Posted by in categories: computing, encryption, information science, quantum physics

Let’s say closer to 7yrs or less.


Whether quantum computing is 10 years away — or is already here — it promises to make current encryption methods obsolete, so enterprises need to start laying the groundwork for new encryption methods.

A quantum computer uses qubits instead of bits. A bit can be a zero or a one, but a qubit can be both simultaneously, which is weird and hard to program but once folks get it working, it has the potential to be significantly more powerful than any of today’s computers.

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Dec 22, 2016

Robots That Read Minds Are a Breakthrough for Manufacturing

Posted by in categories: business, robotics/AI

Definitely; why we been telling businesses the importance of BMI for their environments.


A site dedicated to the sciences, recent scientific discoveries and advances.

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Dec 22, 2016

Using graphene to detect brain cancer cells

Posted by in categories: biotech/medical, neuroscience

Graphene has already proven its importance to brain implants as well as other Synbio technology.


Brain cell culture. Left: Normal astrocyte brain cell; Right: cancerous Glioblastoma Multiforme (GBM) version, imaged by Raman spectrography. (credit: B. Keisham et al./ACS Appl. Mater. Interfaces)

By interfacing brain cells with graphene, University of Illinois at Chicago researchers have differentiated a single hyperactive Glioblastoma Multiforme cancerous astrocyte cell from a normal cell in the lab — pointing the way to developing a simple, noninvasive tool for early cancer diagnosis.

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