A new theoretical study led by researchers at the University of Chicago and Argonne National Laboratory has identified the ...

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

Scientists achieve optical measurements at atomic scales using quantum electron tunneling, surpassing conventional microscopy limits by nearly 100,000 times with standard lasers.

Now researchers at the Massachusetts Institute of Technology have found a way to use terahertz light to watch a ...

Researchers from Regensburg and Birmingham overcome a fundamental limitation of optical microscopy. With the help of quantum mechanical effects, they succeed for the first time in performing optical ...

For over a century, light has both helped and limited our view of the ...

Researchers at Kyushu University have shown that careful engineering of materials interfaces can unlock new applications for nanoscale magnetic spins, overcoming the limits of conventional electronics ...

A team of engineers and scientists has shown for the first time that a hard-X-ray cavity can provide net X-ray gain, with X-ray pulses being circulated between crystal mirrors and amplified in the ...

The noise that disrupts communication devices and sensors results from electrons being scattered by defects and temperature-driven vibrations in the materials they travel through. A UCLA-led research ...

Key takeawaysThe noise that disrupts communication devices and sensors results from electrons being scattered by defects and ...