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Archive for the ‘computing’ category: Page 666

Mar 17, 2018

Stephen Hawking Lived Beyond His Body

Posted by in categories: computing, internet, sustainability

For all of us, the act of being and thinking requires a network of complex support. The late physicist’s disability made it visible.

Midnight. As I was browsing the internet, I saw, like shooting stars, emails suddenly appear and disappear from the right-hand corner of my computer screen. The first from CNN announcing the death of Stephen Hawking, the second from an editor at The Atlantic asking me to write about him.

I had written about the man for 10 years—as a biographer of some sort, or an anthropologist of science to be more precise, studying the traces of Hawking’s presence. But now I felt a powerless inertia, unable to write anything. I didn’t think I would be affected by his death, but it touched me deeply. I was overwhelmed by the numerous articles that started to appear all over the world doing precisely what I had studied for so long and so carefully: recycling over and over again the same stories about him. Born 300 years after the death of Galileo Galilei, holder of Cambridge’s Lucasian Chair of Mathematics (once held by Isaac Newton), and now … died on the same day Albert Einstein was born. The life paths of history’s most iconic scientists intersected in weird ways. The puzzle seemed complete: Hawking had fully entered the pantheon of the great.

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Mar 16, 2018

Proposed ‘Nanomechanical’ Computer is Both Old-School and Cutting-Edge

Posted by in categories: computing, engineering, nanotechnology

A group of engineers have proposed a novel approach to computing: computers made of billionth-of-a-meter-sized mechanical elements. Their idea combines the modern field of nanoscience with the mechanical engineering principles used to design the earliest computers.

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Mar 15, 2018

Two-toned light pattern creates steep quantum walls for atoms

Posted by in categories: computing, particle physics, quantum physics

Exotic physics can happen when quantum particles come together and talk to each other. Understanding such processes is challenging for scientists, because the particle interactions can be hard to glimpse and even harder to control. Moreover, modern computer simulations struggle to make sense of all the intricate dynamics going on in a large group of particles. Luckily, atoms cooled to near zero temperatures can provide insight into this problem.

Lasers can make mimic the physics seen in other systems—an approach that is familiar terrain for atomic physicists. They regularly use intersecting laser beams to capture atoms in a landscape of rolling hills and valleys called an optical lattice. Atoms, when cooled, don’t have enough energy to walk up the hills, and they get stuck in the valleys. In this environment, the atoms behave similarly to the electrons in the crystal structure of many solids, so this approach provides a straightforward way to learn about interactions inside real materials.

But the conventional way to make optical lattices has some limitations. The wavelength of the laser light determines the location of the hills and valleys, and so the distance between neighboring valleys—and with that the spacing between atoms—can only be shrunk to half of the light’s wavelength. Bringing atoms closer than this limit could activate much stronger interactions between them and reveal effects that otherwise remain in the dark.

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Mar 15, 2018

Quantum physics made fun

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

We all know that physics and maths can be pretty weird, but these three books tackle their mind-bending subjects in markedly contrasting ways. Clifford V. Johnson’s The Dialogues is a graphic novel, seeking to visualise cosmic ideas in comic-book style. Darling and Banerjee’s Weird Maths is a miscellany of fun oddities, ranging from chess-playing computers to prime-counting insects. Philip Ball’s Beyond Weird argues that we’ve got quantum mechanics all wrong: it’s not so weird actually, but quite sensible. All three books do a fine job for their respective audiences. Just make sure you know which target group you’re in.

The Dialogues is a sequence of illustrated conversations, often between pairs of youthful and attractive characters, scrupulously diverse in race and gender, who happen to meet in a café, gallery or train carriage, and find themselves talking about physics. Perhaps ‘The Lectures’ would be a better title, since one interlocutor is the expert, while the other is an interested lay person whose role is to feed questions at appropriate intervals.

The author shows himself to be a highly talented graphic artist as well as being a distinguished theoretician, and while the ping-pong chats may be somewhat lacking in narrative drive, they do provide a platform for some admirably lucid explanations of topics such as Maxwell’s equations or Einstein’s cosmological constant. Not the kind of comic book you roll up in your pocket, but a weighty hardback that would grace any coffee table.

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Mar 14, 2018

Researchers demonstrate existence of new form of electronic matter

Posted by in categories: computing, physics

Researchers have produced a “human scale” demonstration of a new phase of matter called quadrupole topological insulators that was recently predicted using theoretical physics. These are the first experimental findings to validate this theory.

The researchers report their findings in the journal Nature.

The team’s work with QTIs was born out of the decade-old understanding of the properties of a class of materials called topological insulators. “TIs are electrical insulators on the inside and conductors along their boundaries, and may hold great potential for helping build low-power, robust computers and devices, all defined at the atomic scale,” said mechanical science and engineering professor and senior investigator Gaurav Bahl.

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Mar 14, 2018

Silicon Valley billionaire pays $10k to be killed and have his brain preserved

Posted by in categories: computing, life extension, neuroscience

A SILICON Valley billionaire is paying the ultimate price for the chance of immortality: death.

Well that, and a spare ten grand.

Entrepreneur Sam Altman is one of 25 people who have splashed the cash to join a waiting list at Nectome – a startup that promises to upload your brain into a computer to grant eternal life to your consciousness.

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Mar 13, 2018

What CISOs Should Know About Quantum Computing

Posted by in categories: computing, encryption, quantum physics

As quantum computing approaches real-world viability, it also poses a huge threat to today’s encryption measures.

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Mar 9, 2018

Scientists discover how to make quantum bits ‘talk’ to each other

Posted by in categories: computing, quantum physics

The move is being heralded as a ‘significant milestone’ in the broader effort to build a world-beating quantum computer.

Building a quantum computer has been called the ‘space race of the 21st century’ – a difficult and ambitious challenge, with the potential to deliver revolutionary tools.

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Mar 8, 2018

Quantum Computers Reach Big Milestone With Perfectly-Placed ‘Talking’ Atoms

Posted by in categories: computing, particle physics, quantum physics

A group of Australian scientists made reached a major milestone towards building a quantum computer. Here’s how they revolutionized the field.

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Mar 5, 2018

We Can Now Store Light as Sound, And It’s a Game Changer For Computing

Posted by in categories: climatology, computing

Last year, scientists took a big step towards creating the next generation of computers.

For the first time ever, they stored light-based information as sound waves on a computer chip — something the researchers compared to capturing lightning as thunder.

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