Argonne National Laboratory announced it has successfully deployed and is running a 12-qubit quantum dot device built by Intel, with the first collaborative work published in Nature Communications. - ...

This resource provides clear explanations of how switching regulators work and how voltage boosting is achieved efficiently ...

On Oct. 3, 1950, three scientists at Bell Labs in New Jersey received a U.S. patent for what would become one of the most important inventions of the 20th century — the transistor. John Bardeen, ...

A new record has been set for extremely precise control over qubits, the building blocks of quantum computers. This advance could lead to quantum computers that make fewer errors – if it can be ...

The growing energy use of AI has gotten a lot of people working on ways to make it less power hungry. One option is to develop processors that are a better match to the sort of computational needs of ...

Why it matters: Silicon transistors are great, but just like any other object in the physical world, they are held back by a few limitations. The laws of physics put a bottleneck on performance and ...

Nanoscale 3D transistors made from ultrathin semiconductor materials can operate more efficiently than silicon-based devices, leveraging quantum mechanical properties to potentially enable ...

Pat gelsinger, boss of Intel, a chipmaker, loves to brag that his firm is leading the charge in semiconductor technology by entering the “angstrom era”. The angstrom, named in honour of Anders Jonas ...

Abstract: Fundamental short-circuit operations of silicon carbide static induction transistors with buried-gate structures (BGSITs) were experimentally clarified, with subsequent device simulations.