In the realm of quantum mechanics, the ability to observe and control quantum phenomena at room temperature has long been elusive, especially on a large or "macroscopic" scale. Traditionally, such observations have been confined to environments near absolute zero, where quantum effects are easier to detect. But the requirement for extreme cold has been a major hurdle, limiting practical applications of quantum technologies.
Now, a study led by Tobias J. Kippenberg and Nils Johan Engelsen at EPFL, redefines the boundaries of what's possible. The pioneering work blends quantum physics and mechanical engineering to achieve control of quantum phenomena at room temperature.
"Reaching the regime of room temperature quantum optomechanics has been an open challenge since decades," says Kippenberg. "Our work realizes effectively the Heisenberg microscope—long thought to be only a theoretical toy model."
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