Scientists have taken a major step toward solving a long-standing mystery in particle physics, by finding no sign of the ...

Scientists have taken a major step toward solving a long-standing mystery in particle physics, by finding no sign of the ...

Why does lead behave so differently from every other atomic nucleus when struck by electrons? A team of physicists at ...

Neutrinos are tiny subatomic particles that barely interact with matter. They can pass through planets without stopping. The ...

Rutgers researchers help close the door on a decades-old physics mysteryAfter collecting and analyzing data for a decade, a ...

In 1845, Michael Faraday discovered what’s known today as the Faraday Effect—which describes how light and electromagnetism ...

Using intense X-rays, researchers captured a buckyball as it expanded, split and shed electrons under strong laser fields.

Thorium-229's unique nuclear transitions may lead to a revolutionary nuclear clock, with enhanced stability and sensitivity ...

If so, laws might change when the universe itself changes phase. In the early universe, as temperatures and densities shifted, forces split apart from a unified origin. What we call “laws” may be like ...

By combining the language of groups with that of geometry and linear algebra, Marius Sophus Lie created one of math’s most ...

A research team affiliated with UNIST has made a significant breakthrough in overcoming one of the most persistent challenges ...

Learn how dose-fractionated spectrum imaging improves cryo-EELS mapping accuracy, achieving atomic-level resolution with ...