Quantum Mechanics
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The universe is governed by two sets of seemingly incompatible laws of physics – classical and quantum physics. MIT physicists have now observed the moment atoms switch from one to the other, as they form intriguing “quantum tornadoes.”
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Sandia National Laboratories is developing an avocado-sized vacuum chamber made out of titanium and sapphire that could one day use quantum mechanical sensors to provide GPS-grade navigation without the need for satellites.
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There are many exotic states of matter besides the basics of solid, liquid, gas and plasma. One of these, known as a supersolid, was confirmed a few years ago, and now University of Innsbruck scientists have created it in a new two-dimensional form.
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Classical physics describes how large objects and systems work on an everyday scale, while quantum physics describes the “spooky” subatomic world. Now scientists have observed a rare crossover where a quantum fluctuation affected a macroscale object.
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Researchers at Empa and EPFL have created one of the smallest motors ever made. It’s composed of just 16 atoms, and at that tiny size it seems to function right on the boundary between classical physics and the spooky quantum realm.
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ScienceQuantum entanglement, where two objects become intertwined and remain so no matter the distance that grows between them, is a tricky phenomenon to study let alone photograph. But scientists doing the former have now managed the latter, for the first time ever.
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If you throw a particle at a wall, there’s a chance that it will suddenly appear on the other side. This is thanks to a phenomenon known as quantum tunneling, and now a team of physicists has measured just how long that process takes.
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Quantum entanglement is the idea that two distant atoms can become so entwined that changes to one can instantly affect the other. Now scientists have managed to demonstrate it on a much larger scale, which is beginning to cross over into our everyday world.
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Researchers have come up with a way to generate truly random numbers using quantum mechanics. The method uses photons to generate a string of random ones and zeros, and leans on the laws of physics to prove that these strings are truly random, rather than merely posing as random.
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When the universe was a few microseconds old, it was a soupy substance called quark-gluon plasma, exhibiting a host of unusual quantum effects previously only thought to occur just after the Big Bang. For the first time, IBM researchers have now observed a gravitational anomaly in earthly materials
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If you pushed a ball with negative mass, it would move towards you. It might be hard to picture, but according to Newtonian physics it should be possible. Now a team at Washington State University has demonstrated the phenomenon in practice, creating a fluid that has the properties of negative mass.
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According to the experts, quantum cryptography is the most secure way to send data. Based on the laws of physics, any attempt to steal a quantum key not only changes it but also alerts the sender and receiver. So why not use it to make mobile transactions more secure, if not, hack-proof?
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