Quantum computing has entered a bit of an awkward period. There have been clear demonstrations that we can successfully run quantum algorithms, but the qubit counts ...

How do quantum and classical computational resources compare? CWI PhD student Jordi Weggemans hopes to answer this question ...

When quantum computers become commonplace, current cryptographic systems will become obsolete. Scientists are racing to get ...

Predicting the behavior of many interacting quantum particles is a complicated process but is key to harness quantum computing for real-world applications. Researchers have developed a method for ...

The dream of creating game-changing quantum computers—supermachines that encode information in single atoms rather than ...

Quantum computing is rapidly emerging and, as it progresses forward, promises to cross fields of industry—from health sciences to finance and many other fields. Its advent is transforming the face of ...

Sam Mugel, Ph.D., is the CTO of Multiverse Computing, a global leader in developing value-driven quantum solutions for businesses. Quantum mechanics, which is the study of the behavior of sub-atomic ...

In 1947, when Bell Labs created the transistor, we could never have imagined this invention would underpin the microprocessor, the internet, and the digital world as we know it. The same potential for ...

The algorithms could also benefit AI by generating large, diverse datasets to train models or by enabling quantum-enhanced ...

From subatomic particles to complex molecules, quantum systems hold the key to understanding how the universe works. But there's a catch: when you try to model these systems, that complexity quickly ...

Quantum computers have the potential to solve certain calculations exponentially faster than a classic computer could, but ...