By using ultrafast lasers, researchers have observed electrons moving in perfect sync inside particles smaller than a nanometer. This breakthrough unlocks new ways to manipulate light and electrons, ...

Physicists use mathematical assumptions in many situations that forbid time from moving backwards – but that isn’t ...

Laure Prouvost's working sketch for We Felt a Star Dying, a plant-like installation inspired by her collaboration with the Google Quantum AI team and the philosopher Tobias Rees C ...

The Standard Model (SM), the main physics framework describing elementary particles and the forces driving them, outlines key patterns in physical interactions referred to as gauge symmetries. One of ...

Microsoft’s claims were met with cautious responses by a physics professor who said that “there's a lot of unknowns” with ...

Particles in high-energy nuclear collisions move in a way that follows a pattern known as Lévy walks, a motion found across ...

Minimising semiconductor flaws will expand China's price gap with US for advanced chips used in electronic warfare, aerospace Researchers in China say they have pinpointed the main cause of defects in ...

In recent years, metamaterials with negative physical parameters such as negative dielectric constant and negative magnetic permeability have attracted great attention due to their great potential in ...

Microsoft team behind the recent breakthrough in physics and quantum computing demonstrated by the new Majorana 1 chip, ...

Professors Alexandra Amon, Jason Klusowski, Lue Pan and Maria Micaela Sviatschi are 2025 Sloan Research Fellows.

By integrating topoconductors and Majorana particles, Microsoft has mapped out a viable route to a million-qubit quantum chip ...

After many years of work, Microsoft has unveiled its first quantum hardware, the Majorana 1 processor. Let’s grok its ...