Strange things happen to materials when you peel them down, layer by layer, from thick chunks all the way to sheets just an ...

Physicists confirmed the full two-dimensional six-state clock model in atomically thin nickel phosphorus trisulfide, ...

Physicists at The University of Texas at Austin have experimentally confirmed a decades-old theory ...

Strange things happen to materials when you peel them down, layer by layer, from thick chunks all the way to sheets just an atom thick. Reporting in ...

Holographic models have emerged as a powerful framework for bridging disparate areas of physics through the gauge/gravity duality. This approach enables researchers to explore complex phenomena in ...

Quantum phase transitions represent fundamental changes between distinct quantum states of matter, driven not by thermal fluctuations but by quantum fluctuations at zero temperature. These transitions ...

When a magnet is heated up, it reaches a critical point where it loses magnetization. Called "criticality," this point of high complexity is reached when a physical object is transitioning smoothly ...

This image depicts the ultracold atomic quantum simulator. The red and blue balls represent the fermionic atoms with up and down spins, respectively, arranged in a staggered pattern in 3D space, ...

In 1935, Albert Einstein and Erwin Schrödinger, two of the most prominent physicists of the day, got into a dispute over the nature of reality. Einstein had done the math and knew that the universe ...

Princeton physicists have discovered an abrupt change in quantum behavior while experimenting with a three-atom-thin insulator that can be easily switched into a superconductor. The research promises ...

Phase changes -- Stability and instability -- Bifurcations and catastrophes -- Percolation -- Random graphs -- Life origins -- Virus dynamics -- Cell structure ...