To study the interactions between electrons in a material, physicists have come up with a number of tricks over the years.

Applied Materials has launched the SEMVision™ H20 ... Operating at room temperature, CFE produces a narrower beam with more electrons, thereby increasing nanoscale image resolution by up ...

Researchers from the University of Cambridge and the Eindhoven University of Technology have developed an organic ...

Physicists developed simplified formulas to quantify quantum entanglement in strongly correlated electron systems. Their approach was applied to nanoscale materials, revealing unexpected quantum ...

Some things just work better in pairs—like peanut butter and jelly, or famous duos like Simon and Garfunkel. Now, scientists ...

These different technologies can be applied in quantum science to study fundamental ... emulations of many-body physics in extreme magnetic fields. For example, in materials, electrons “originate” ...

Detecting radiation is a fundamental necessity for national security, but doing so effectively and at a distance is a tall ...

Physicists in Japan have developed streamlined formulas to measure quantum entanglement, revealing surprising quantum ...

The key lies in how these materials’ electrons interact with light: when exposed to an electric field, they switch between two states—excitons (electron-hole pairs that are electrically neutral) and ...

The iron-cobalt alloy is widely used due to its strong magnetic properties. However, there is a limit to how much their ...