Surprisingly, mathematics and science are similar in challenging a fundamental truth: That there exist things that are ...

Crystals, bacterial colonies, flame fronts: the growth of surfaces was first described in the 1980s by the ...

For years, Rutgers physicist David Shih solved Rubik's Cubes with his children, twisting the colorful squares until the ...

Archytas of Tarentum, who was born around the year 435 BC in Taranto, Italy, was another in a long line of polymaths from ...

A mathematics professor at The University of Manchester has developed a novel machine-learning method to detect sudden changes in fluid behaviour, improving speed and cost of identifying these ...

Canadians passionate about their country's role in space say investments in homegrown astronauts and businesses are vital in ...

‘Courageous, creative, and deeply committed’: The Young Scientists and Developers in Israel returns for its 29th year amid ...

A new hardware-software co-design increases AI energy efficiency and reduces latency, enabling real-time processing of ...

Physics Nobel Laureate John Martinis discussed his quantum physics research and offered academic advice to a packed ...

New data shows why college students cluster into the same majors and how to make smarter career decisions in a rapidly ...

The Kardar Parisi Zhang equation models surface growth. After forty years, researchers confirmed its two dimensional behavior using polaritons in engineered materials.

The Kardar-Parisi-Zhang equation has been experimentally verified for the first time on 2D surfaces - thanks to sophisticated material design and polaritons. The question of how surfaces grow is one ...