New measurements using gravitational lensing suggest the universe’s current expansion rate does not agree with signals from the early cosmos.

Learn how a particle born in the sun’s core left a measurable flash of light two kilometers beneath Earth’s surface.

Quantum computing is entering a critical phase as researchers say scaling to millions of qubits is the biggest challenge and ...

The Jahn–Teller effect is a well-explored phenomenon in solid-state physics. In a new development, researchers from Waseda ...

Olalla, from the Department of Condensed Matter Physics at the University of Seville, has described the direct link between ...

Neutrinos are low-mass subatomic particles with zero electric charge that interact with matter only via the weak nuclear force and gravity. This makes neutrinos difficult to detect, despite the fact ...

From a particle smasher encircling the moon to an “impossible” laser, five scientists reveal the experiments they would run ...

In 2008, a team of UCLA-led scientists proposed a scheme to use a laser to excite the nucleus of thorium atoms to realize extremely accurate, portable clocks. Last year, they realized this ...

Scientists finally caught solar neutrinos triggering a rare atomic transformation once thought nearly impossible to observe.

Physics-informed, deterministic biomarkers from routine H&E slides run natively on AMD EPYC™ CPUs - enabling reproducible ...

Current physics is speeding toward a breaking point, as astronomers confirm that the Hubble tension in new data.

Despite soaring progress, scientists at AI’s largest gathering say key questions about how models work and how to measure ...