Researchers Mitsuyoshi Kamba, Naoki Hara, and Kiyotaka Aikawa of the University of Tokyo have successfully demonstrated quantum squeezing of the motion of a nanoscale particle, a motion whose uncertainty is smaller than that of quantum mechanical fluctuations.



Summary

Researchers at the University of Tokyo achieved quantum squeezing of a nanoscale particle’s motion, meaning they reduced the uncertainty in its position or momentum beyond the limits normally imposed by quantum mechanics. This “squeezing” surpasses the standard quantum fluctuations, representing a significant breakthrough. This manipulation of a nanoscale object at the quantum level holds potential implications for advanced sensing technologies and fundamental physics research. The team, led by Kamba, Hara, and Aikawa, has opened new avenues for controlling and understanding quantum phenomena in nanoscale systems.

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