Scientists from the University of Chicago and the University of Bath used sound waves to levitate particles, revealing new insights about how materials cluster together in the absence of ...

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Stanford physicists have developed a “quantum microphone” that can measure individual particles of sound, called phonons. The device could lead to smaller, efficient quantum computers that operate by ...

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A device that eavesdrops on the quantum whispers of atoms could form the basis of a new type of quantum computer. Stanford physicists have developed a "quantum microphone" so sensitive that it can ...

Researchers can move microscopic particles and droplets into precise patterns by harnessing the power of sound in air. The implications for printing, especially in the fields of medicine and ...

We may receive a commission on purchases made from links. Researchers at Stanford have developed a "quantum microphone" which can detect the smallest known units of sound — packets of vibrational ...

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Scientists have used sound waves to levitate particles, revealing new insights about how materials cluster together in the absence of gravity -- principles which underlie everything from how molecules ...

Stanford physicists have developed a "quantum microphone" so sensitive that it can measure individual particles of sound, called phonons. The device, which is detailed July 24 in the journal Nature, ...