The Graduate School of Information Science (GSIS) at Tohoku University, together with the Physics and Informatics (PHI) Lab ...

Supercomputers track their speed by how many calculations they do each second, while quantum computers count qubit operations ...

Brain-inspired chips can slash AI energy use by as much as 100-fold, but the road to mainstream deployment is far from ...

AmpliTech Group, Inc. (Nasdaq: AMPG, AMPGW), a designer, developer, and manufacturer of state-of-the-art signal processing components for satellite, Public and Private 5G, and other communications ...

Professor Prem Kumar and a multi-institution research team built a first-of-its-kind silicon chip combining a photonic ...

Quantum computing has the potential to solve intricate problems at an exponential rate compared to classical computing, opening up new avenues for scientific exploration and innovative solutions. The ...

Furthermore, the pharmaceutical industry can benefit significantly from quantum computing. Drug discovery involves simulating complex molecular interactions, which is a computationally intensive ...

Semiconductor processing is notoriously challenging. It is one of the most intricate feats of modern engineering due to the extreme precision required and the hundreds of steps involved, such as ...

Researchers have determined how to use magnons—collective vibrations of the magnetic spins of atoms—for next-generation information technologies, including quantum technologies with magnetic ...

Watch and listen to five recent highlights, including Metropolitan Opera performances, the posthorn solo in Mahler’s Third and music by Tomeka Reid.

The experiments show that the coupled QD-cavity system is a promising candidate for probing CQED as well as for optical information processing. Our present work includes building of a three level ...