A clever method from Caltech researchers now makes it possible to unravel complex electron-lattice interactions, potentially transforming how we understand and design quantum and electronic materials.

Caltech scientists have found a fast and efficient way to add up large numbers of Feynman diagrams, the simple drawings ...

Using an advanced Monte Carlo method, Caltech researchers found a way to tame the infinite complexity of Feynman diagrams and ...

In a paper published in Nature Physics, the Caltech team uses its new method to precisely compute the strength of ...

Caltech scientists have found a fast and efficient way to add up large numbers of Feynman diagrams, the simple drawings physicists use to represent ...

Shandong University released the world's first mineralogical ground truth report on magnesium-rich pyroxene annulus from the ...

When the press release says “proof”, reach for the journal. Public service guidance for science reporting done right.

If you pull twice as hard on a spring, it stretches twice as far. However, when we introduce very large forces or complicated ...

Brain-inspired chips can slash AI energy use by as much as 100-fold, but the road to mainstream deployment is far from ...

Antarctic research reveals how rare earth elements move underground through freeze-thaw cycles in desert environments.

A novel intelligent adhesion structure developed by researchers not only enhances adhesion on complex surfaces, but also ...

Neurovascular variations are highly prevalent, encompassing differences in origin, course, and vascular territories, which may result in atypical clinical ...