Inside today's computers, information is transferred in the form of bits, a basic unit of measurement that can have a value of either zero or one. In the someday world of quantum computing, information will be stored and transferred via qubits – units as small as photons or electrons held steady inside some kind of trap. Because qubits can hold a value as both a zero and one, their use could dramatically increase computational speeds. But qubits are notoriously slippery characters and getting them to stay still, or even to exist very long has been a challenge. Now scientists at MIT have figured out a way to get a simple molecule to remain stable for "hundreds of times longer than researchers have previously achieved in these materials," making a usable qubit closer than ever to reality.
.. Continue Reading Cooling the qubit: Quantum computing gets more stableCategory: Quantum Computing
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from New Atlas http://ift.tt/2w6vj0s
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