Tag Archives: University of Southern California

This tiny robotic beetle travels for two hours without a battery

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A team of researchers from the University of Southern California have created a miniscule autonomous robotic beetle, RoBeetle, that can travel for more than two hours without a battery. The 88-milligram, insect-inspired robot runs on liquid methanol,...

Alt-week 10.6.12: supercomputers on the moon, hear the Earth sing and the future of sports commentary

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Alt-week peels back the covers on some of the more curious sci-tech stories from the last seven days.

Altweek 10612 supercomputers on the moon, hear the Earth sing and the future of sports commentary

Normally we try to encourage you to join us around the warm alt-week campfire by teasing you about what diverse and exotic internet nuggets we have for you inside. Sadly, this week that's not the case. There's nothing for you here we're afraid. Not unless you like totally mind-blowing space videos, singing planets and AI / sports commentary-flavored cocktails, that is. Oh, you do? Well what do you know! Come on in... this is alt-week.

Continue reading Alt-week 10.6.12: supercomputers on the moon, hear the Earth sing and the future of sports commentary

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Alt-week 10.6.12: supercomputers on the moon, hear the Earth sing and the future of sports commentary originally appeared on Engadget on Sat, 06 Oct 2012 17:00:00 EDT. Please see our terms for use of feeds.

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USC develops printable liquid solar cells for flexible, low-cost panels

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USC develops printable liquid solar cells for flexible, low-cost panels

Solar cells are becoming more viable sources of energy -- and as they become more efficient, they're only getting smaller and cheaper to produce. Liquid nanocrystal cells are traditionally inefficient at converting sunlight into electricity, but by adding a synthetic ligand to help transmit currents, researchers at USC have improved their effectiveness. The advantage of these liquid solar cells? They're cheaper than single-crystal silicon wafer solutions, and they're also a shockingly minuscule four nanometers in size, meaning more than 250 billion could fit on the head of a pin. Moreover, they can be printed onto surfaces -- even plastic -- without melting. Ultimately, the goal of this research is to pave the way for ultra-flexible solar panels. However, the scientists are still experimenting with materials for constructing the nanocrystals, since the semiconductor cadmium selenide they've used thus far is too toxic for commercial use.

USC develops printable liquid solar cells for flexible, low-cost panels originally appeared on Engadget on Fri, 27 Apr 2012 13:21:00 EDT. Please see our terms for use of feeds.

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Flawed diamonds are perfect ingredients for quantum computing, just add time travel

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Flawed diamonds are perfect ingredients for quantum computing, just add time travel
Ready to suspend your brain cells in a superposition of disbelief? Good, because the latest news published in Nature is that diamonds are a quantum computer's best friend -- particularly if they're flawed. An international team of scientists sought out sub-atomic impurities in a 1mm-thick fragment of over-priced carbon and used these as qubits to perform successful calculations. A "rogue" nitrogen nucleus provided one qubit, while a free electron became a second. Unlike previous attempts at solid-state quantum computing, this new effort used an extra technique to protect the system from decoherence errors: microwave pulses were fired at the electron qubit to "time-reverse" inconsistencies in its spinning motion. Don't fully get it? Us neither. In any case, it probably won't stop jewellers tut-tutting to themselves.

Flawed diamonds are perfect ingredients for quantum computing, just add time travel originally appeared on Engadget on Sat, 07 Apr 2012 06:08:00 EDT. Please see our terms for use of feeds.

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