Atomic-scale imperfections in graphene transistors generate unique wireless fingerprints that cannot be copied or predicted, ...

A new microchip-sized device could dramatically accelerate the future of quantum computing. It controls laser frequencies ...

Transistors are tiny components that can turn electrical signals on and off at incredible speeds. In this video, you'll learn ...

Intel has completed acceptance testing of the industry's first commercial high-NA EUV lithography system with a numerical ...

Traditional CMOS chips are fabricated by applying and then etching repeated layers of different materials, applied to a wafer of ultra-pure silicon. The bottom-most layer, also known as the front end ...

Cerebras’ giant chip and other advances in 2025 reflect a post-Moore’s-law shift toward parallel computing and broader AI ...

Quantum communication saw major progress, including longer-distance demonstrations and systems that operate closer to ...

Diamond color centers are a well researched field, but using them at scale as qubits was out of reach until recently. Their ...

Quantum information science is no longer confined to chalkboards and controlled laboratory tests. You now see working quantum ...

For decades, chipmakers have squeezed more computing power out of silicon by shrinking transistors, but that strategy is ...

What many engineers once saw as a flaw in organic electronics could actually make these devices more stable and reliable, according to new research from the University of Surrey and JOANNEUM RESEARCH ...

Researchers have created a new kind of 3D computer chip that stacks memory and computing elements vertically, dramatically ...