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Jul 5, 2018
Teen Makes $100,000 Through Bitcoin, Crowdfunds VR Headset
Posted by Genevieve Klien in categories: bitcoin, virtual reality
After having been given $1,000 by his grandma at only 13-years-old, Erik Finman, now 17, made the risky decision to invest in the notoriously volatile Bitcoin market.
When he was 15, only a year and a half later, he liquidated his Bitcoins, making a cool $100,000. He’s now crowdfunding his very own VR headset. He has been featured in Time Magazine, Mashable, CBS News, Business Insider, The Times, BBC, and more.
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Jul 5, 2018
Robot Learns to Sort and Organize After Watching a Human Do It Only Once
Posted by Genevieve Klien in category: robotics/AI
Researchers at UC Berkeley have figured out a way to train robots by imitating humans, by showing them and not telling them what to do. This is a stride in being able to easily communicate with machines to hopefully usher in an age of robotic butlers and home assistants to serve humans’ needs.
Jul 5, 2018
Jupiter’s Moons Leave Signature Spots in Its Aurorae
Posted by Genevieve Klien in category: space
Despite being wildly different from Earth in almost every way, Jupiter does feature some familiar phenomena—including aurorae, what we call the Northern and Southern lights. But Jupiter’s aurorae have something Earth’s don’t: strange features caused by the Jovian moons.
Scientists analyzing data from the Juno spacecraft spotted some of these anomalies in action. They saw swirls and spots caused by Jupiter’s moons Io and Ganymede. And, as is often the case, things weren’t what they seemed from far away.
Jul 5, 2018
Semiconductor quantum transistor opens the door for photon-based computing
Posted by Genevieve Klien in categories: computing, mobile phones, particle physics, quantum physics
Transistors are tiny switches that form the bedrock of modern computing; billions of them route electrical signals around inside a smartphone, for instance.
Quantum computers will need analogous hardware to manipulate quantum information. But the design constraints for this new technology are stringent, and today’s most advanced processors can’t be repurposed as quantum devices. That’s because quantum information carriers, dubbed qubits, have to follow different rules laid out by quantum physics.
Scientists can use many kinds of quantum particles as qubits, even the photons that make up light. Photons have added appeal because they can swiftly shuttle information over long distances, and they are compatible with fabricated chips. However, making a quantum transistor triggered by light has been challenging because it requires that the photons interact with each other, something that doesn’t ordinarily happen on its own.
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Jul 5, 2018
Implanting diamonds with flaws offers key technology for quantum communications
Posted by Genevieve Klien in categories: computing, particle physics, quantum physics
Diamonds are prized for their purity, but their flaws might hold the key to a new type of highly secure communications.
Princeton University researchers are using diamonds to help create a communication network that relies on a property of subatomic particles known as their quantum state. Researchers believe such quantum information networks would be extremely secure and could also allow new quantum computers to work together to complete problems that are currently unsolvable. But scientists currently designing these networks face several challenges, including how to preserve fragile quantum information over long distances.
Now, researchers have arrived at a possible solution using synthetic diamonds.
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Jul 5, 2018
Mystery of Charles Darwin’s flying spiders solved — they harness electricity
Posted by Genevieve Klien in category: evolution
You might assume that evolution gave Charles Darwin enough to ponder during his five year voyage on The Beagle.
But of all the phenomena the naturalist encountered circumnavigating the globe, it was the flight of spiders which continued to puzzle him.
Darwin noticed that hundreds of spiders would inexplicably land on the Beagle even on a calm day without any wind to blow them on board.
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In a new study, researchers have attacked cancer stem cells on two fronts: glycolysis and oxidative phosphorylation.
According to a new study published in the journal Cell Metabolism, it might be possible to attack cancer by exploiting its own cellular metabolism rather than by employing drugs to kill cancerous cells directly [1].
Study summary
Jul 5, 2018
A voltage breakthrough with perovskite solar cells to edge closer to commercialization
Posted by Bill Kemp in categories: solar power, sustainability
A new technique has produced the highest performing inverted perovskite solar cell ever recorded. A team of researchers from Peking University and the Universities of Surrey, Oxford and Cambridge detail a new way to reduce an unwanted process called non-radiative recombination, where energy and efficiency is lost in perovskite solar cells.
The team created a technique called Solution-Process Secondary growth (SSG) which increased the voltage of inverted perovskite solar cells by 100 millivolts, reaching a high of 1.21 volts without compromising the quality of the solar cell or the electrical current flowing through a device. They tested the technique on a device which recorded a PCE of 20.9 percent, the highest certified PCE for inverted perovskite solar cells ever recorded.
Researchers are still working towards increasing efficiency and stability, prolonging lifetime and replacing toxic materials with safer ones. Researchers are also looking at the benefits of combining perovskites with other technologies, like silicon for tandem cells.