Data centers—the warehouse-sized buildings that store photos, stream movies and train artificial intelligence—are voracious consumers of electricity. A surprisingly large share of that power never ...

A launch vehicle’s ascent battles gravity to gain orbital velocity, while re-entry is a controlled struggle against the atmosphere to systematically shed that immense kinetic energy through ...

Lithium batteries power an expanding range of technologies, from electric vehicles and commercial transportation fleets to stationary energy storage systems and grid-scale backup power installations.

In many quantum materials—materials with unusual electrical and magnetic properties driven by quantum mechanical effects—electrons can organize themselves into Landau levels. Landau levels are ...

Hitachi Energy, a global leader in electrification, and Pakal Technologies, a cutting-edge innovator in silicon power semiconductor design, announced a collaboration to advance shared value creation ...

Passive thermal control relies on design features and materials like insulation layers, reflective coatings, and thermal barriers. Because passive solutions have no moving parts, they require less ...

However, sTIMs cannot be used alone, they require backside metallization (BSM) on the module to establish a thermal path and ...

A 13-foot robot nicknamed Godzilla is being engineered to assemble components inside ITER, the massive fusion reactor taking ...

AI computing demand is increasing the need for thermal management. To optimize space efficiency in data centers, server cooling is shifting from traditional air cooling to liquid cooling, bringing a ...

Why it matters: For more than a century, copper and silver have set the standard for thermal conductivity in metals. A new study by UCLA engineers and their collaborators challenges that assumption, ...