A clever method from Caltech researchers now makes it possible to unravel complex electron-lattice interactions, potentially transforming how we understand and design quantum and electronic materials.

Using an advanced Monte Carlo method, Caltech researchers found a way to tame the infinite complexity of Feynman diagrams and ...

Cutting corners in control system updates—such as skipping P&ID revisions or HAZOP documentation—can create long-term safety ...

Kiro’s structured, agentic workflow challenges the Copilot model, offering a spec-first IDE with hooks, task orchestration, ...

Researchers have found the first new type of magnet in nearly a century. Now, these strange "altermagnets" could help us ...

Valeura Energy is undervalued with $6/Bbl 2P reserves, robust production, and no debt. Learn about its ongoing capex and ...

Milton Feng has been working with Foxconn Interconnect Technologies (FIT) on a series of Center for Networked Intelligent ...

Dustin Mulvaney traces the current deregulatory bonanza that the Trump administration has unleashed on public lands and ...

The Alabama Emergency Management Agency’s Clanton office recently showcased extensive renovations to its building that works ...

Democrats are echoing criticism from the right of how Donald Trump and his administration have handled case files related to ...

Brain dynamics and cognition share genetic roots. Criticality may guide future brain health research. A recent study published on June 24 in PNAS presents strong evidence that brain criticality—the de ...

Candidates for Fort Collins' upcoming mayoral race discussed their housing policy ideas at a July 10 forum hosted by YIMBY ...