A pulse of light sets the tempo in the material. Atoms in a crystalline sheet just a few atoms thick begin to move—not ...

A research team led by NIMS has, for the first time, produced nanoscale images of two key features in an ultra-thin material: ...

Scientists have known for decades that opioids relieve pain by binding to molecular switches in the brain called mu-opioid ...

When an intense laser pulse hits an electron at rest, the latter performs a quiver motion with the frequency of the light ...

Researchers have developed a novel microscopy imaging technique to assess damaged myelin across large areas of brain tissue, ...

A team of Florida State University-based physicists, including National High Magnetic Field Laboratory Dirac Postdoctoral ...

A water-based plasma method creates stable multimetal nanoparticles with a protective shell that improves light driven carbon ...

To study the inner workings of an atom's nucleus, scientists have traditionally relied on sophisticated particle colliders to ...

By the late 1800s, the scientific world was buzzing with questions about electricity and light. Several researchers were ...

A discovery of electrically controlled triple quantum dots in zinc oxide by the Advanced Institute for Materials Research ...

As global leaders, international organizations, scientists, business representatives and climate activists convene in Belém for COP30, the IAEA is showcasing how nuclear science and technology are ...

Physicists have discovered how to make electrons “freeze” and “melt” into bizarre quantum patterns, forming a new kind of matter where solid and liquid coexist. Electricity drives nearly every aspect ...