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IMAGE: The team s experiment can be thought of as a quantum version of a claw machine , where light acts as a claw, and the balls are quanta of sound view more
Credit: Imperial College London
Researchers perform experiments that can add or subtract a single quantum of sound with surprising results when applied to noisy sound fields.
Quantum mechanics tells us that physical objects can have both wave and particle properties. For instance, a single particle or quantum of light is known as a photon, and, in a similar fashion, a single quantum of sound is known as a phonon, which can be thought of as the smallest unit of sound energy.
Researchers suppress optical back reflections, promising improved signals
11 Jan 2021
âNoise-cancellingâ principle adapted by team from Max Planck Institute, Imperial College London, and UK s NPL.
An optical microresonator with a sharp tungsten tip. Click for more info.Microresonators are small glass structures in which light can circulate and build up in intensity. Due to material imperfections, some light is usually reflected backwards during operation, which disturbs the microresonator function.
A UK-German research partnership has now demonstrated a method to suppress these unwanted back reflections. The scientists say that their findings can help improve many microresonator-based applications â from measurement technology such as sensors used in drones, to optical information processing in fiber networks and optical computing.