If these knots had a slight bias toward matter over antimatter, their unraveling could help explain the matter-antimatter ...

The world has been paying close attention to the global contest for supremacy in artificial intelligence. But the separate ...

A Nobel-Prize winning scientist, a marquee hire by Stony Brook University in its early years, and an inspiration to his adopted and native countries, C.N. “Frank” Yang died on October 18th in Beijing.

One of the most prominent examples of quantized values lies within the structure of atoms. Electrons orbiting the nucleus ...

Recent studies have suggested that vortices in ultralight dark matter halos could provide new insights into the formation of ...

Students and faculty of UC Santa Barbara’s physics department gathered in Corwin Pavilion for the department’s annual Nobel Prize-focused colloquium on Oct. 14. This year’s event was particularly spec ...

"They are the parents of all matter in the universe today, including our own bodies, while the knots can be thought of as our grandparents," physicist Yu Hamada explained.

Google scientists say they have taken a major step toward solving one of the hardest problems in computing. Their latest experiment, they argue, provides the most ...

Chalmers researchers have developed a simple, light-based platform to study the mysterious “invisible glue” that binds materials at the nanoscale. Gold flakes floating in salt water reveal how quantum ...

Researchers have discovered that quantum interactions between particles can be used to create time crystals with their own ...

Scientists have discovered that ultra-thin materials—just a few atoms thick—can naturally create tiny “cavities” that trap ...

Time crystals exhibit perpetual motion-like behavior when separated from external energy input, but scientists found a way to connect them.