That low-frequency fuzz that can bedevil cellphone calls has to do with how electrons move through and interact in materials ...

A researcher at the Department of Physics at Tohoku University has uncovered a surprising quantum phenomenon hidden inside ordinary crystals: the strength of interactions between electrons and lattice ...

Add Yahoo as a preferred source to see more of our stories on Google. Researchers at Rice University and their collaborators have achieved a groundbreaking demonstration of strong interference between ...

A new technology that generates tiny, earthquake-like effects could shake up the wireless device industry with smaller, less ...

These phonon-polariton waves exhibit several unique characteristics. For example, they can concentrate the energy of long-wavelength infrared light into extremely small volumes, even down to tens of ...

Engineers have turned the physics of earthquakes into a tool for shrinking and supercharging the chips inside phones and ...

Researchers at the University of Arizona and the University of Colorado Boulder have developed a surface acoustic wave phonon laser, a single-chip device that ...

Controlling light at the nanoscale is crucial for next-generation technologies such as faster computing and ultra-sensitive sensors. Scientists are keen to harness unique hybrid waves called “phonon ...

Developing a unified theory for liquid behaviour has long been a challenge due to the complex interactions between particles and the constantly changing dynamic disorder within liquids. Current ...

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