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

Researchers have found the first new type of magnet in nearly a century. Now, these strange "altermagnets" could help us ...

Scientists have uncovered a surprisingly simple “tissue code”: five rules that choreograph when, where, and how cells divide, ...

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.

Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible?

A team of researchers at ChristianaCare's Helen F. Graham Cancer Center & Research Institute and the University of Delaware ...

One reason the team turned to mathematical models, rather than traditional biology experiments, is that it’s extremely ...

Scientists use scanning tunneling microscopy to understand how a material's electronic or magnetic properties relate to its ...

A predictive biophysical model that integrates protein-DNA structures and sequences to accurately determine genomic binding sites and affinities of DNA-binding proteins.

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Scientists at ChristianaCare’s Helen F. Graham Cancer Center & Research Institute and the University of Delaware have discovered a surprisingly simple explanation for how our bodies stay so ...