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Jun 21, 2023

Waves of Light Can Be ‘Frozen’ in 3D Materials, According to a New Simulation

Posted by in categories: particle physics, quantum physics

Scientists have solved a decades-long mystery on whether light can be effectively trapped in a 3D forest of microscopic particles.

Using a new method for crunching vast sums in a model of particle interactions, a team of physicists in the US and France revealed conditions under which a wave of light can be brought to a standstill by defects in the right kind of material.

Known as Anderson localization, after US theoretical physicist Philip W. Anderson, electrons can become trapped (localized) in disordered materials with randomly distributed abnormalities. Its proposal in 1958 was a significant moment in contemporary condensed matter physics, applying across quantum as well as classical mechanics.

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