Scientists have found a way to trap light in an extremely thin layer, potentially reshaping how future photonic devices are built.

TERAFAB project, which will be done jointly by @SpaceX and @Tesla. The goal is to produce over a TERAWATT of compute per year ...

Researchers have uncovered friction without contact—driven entirely by magnetic interactions. As two magnetic layers slide, ...

The global semiconductor subsidy race isn't building a more resilient supply chain — it's fracturing the industry into three ...

University of Cambridge researchers have developed a nanoelectronic device built from hafnium oxide that mimics how ...

Semiconductor manufacturers are warning that a prolonged Middle East disruption linked to the war in Iran could tighten ...

Scientists at Harvard have built a miniature device that can twist and tune light in real time. By rotating two stacked ...

The original story “ Physicists solved a decades-old mystery about static electricity ” is published in The Brighter Side of ...

A breakthrough deterministic physics kernel delivers molecular, materials, and reaction screening across three ...

Silvaco Group surged over 50% post-Q4 FY25 earnings last week, driven by strong TCAD bookings and explosive SIP revenue ...

Siemens thas introduced the Fuse™ EDA AI Agent system, a purpose-built domain-scoped autonomous AI agent that plans and ...

Collaboration to Deliver Superconducting Magnets up to 30 Tesla Through this partnership with the MagLab, Quantum ...