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

Enrique Rico Ortega and Sofia Vallecorsa explain how quantum computing will allow physicists to model complex dynamics, from ...

Twisted materials—known as moiré structures—have revolutionized modern physics, emerging as today's "alchemy" by creating ...

Scientists have discovered a revolutionary new method for creating quantum states by twisting materials at the M-point, revealing exotic phenomena previously out of reach. This new direction ...

Quantum sensors have become important tools in low-energy particle physics. Michael Doser explores opportunities to exploit ...

A new silicon material switches from insulator to metal in picoseconds. This breakthrough could speed up future computers.

An international team, led by Donostia International Physics Center (DIPC), has discovered a new way to design novel quantum ...

Researchers show that twisting stacked atomic layers can unlock new quantum properties, offering a fresh strategy to engineer ...

Optimizing the geometric parameters of polymer nanoantenna arrays significantly improves the performance of optical ...

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

A graphene sensor trained by machine learning can now taste like a human, identifying both basic and complex flavors with ...

Imagine if you could "print" a tiny skyscraper using DNA instead of steel. That’s what researchers at Columbia and Brookhaven ...