Some problems that seem to require computer crunching aren’t so hard if you only need approximate answers. Read More »
Building simplified genetic networks in a test tube could help us better understand biological systems. Read More »
Theoretical analysis of parallel layers of ultracold fermionic atoms reveals a rich variety of novel phases that might offer analogies to phenomena in other areas of physics. Read More »
A mathematical model shows how increased intricacy of cognitive tasks can break the mirror symmetry of the brain’s neural network. Read More »
Theoretical results suggest a precise speed limit on the growth of complexity in quantum gravity, set by fundamental laws and saturated by black holes. Read More »
Physicist Pupa Gilbert explains her fascination with the patterns and structures that form in the minerals made by living organisms. Read More »
First-principles calculations predict that a thin layer of VO2 sandwiched between TiO2 layers has electronic states that exhibit both linear and quadratic dispersion. Read More »
Captivating patterns found in the light scattered by an evaporating water droplet could be used to infer the properties of the droplet as it shrinks. Read More »
The 2021 Nobel Prize in Physics honors research on complex systems that undergo significant fluctuations, including glasses and Earth’s climate. Read More »
A crack slices through Plexiglas in three very different ways, depending on its speed, according to experiments that reveal the complexities of crack propagation. Read More »
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