Scientists have developed a powerful new tool for finding the next generation of materials needed for large-scale, fault-tolerant quantum computing. The significant breakthrough means that, for the ...

A research study led by Oxford University has developed a powerful new technique for finding the next generation of materials ...

UCC scientists have confirmed Uranium ditelluride (UTe₂) as an intrinsic topological superconductor using a groundbreaking ...

A new quantum material developed at Rice University combines unique symmetry-driven properties with superconductivity. A team ...

Novel quantum material stabilized by magnetism, offering a path to more resilient quantum computers capable of handling ...

Bismuth, a puzzling material in quantum research, has now revealed a surprising twist. Kobe University scientists discovered that its surface properties can obscure its true nature, challenging a ...

In the world of quantum computing, the Hilbert space dimension—the measure of the number of quantum states that a quantum ...

Quantum computing is not just another technological advancement—it’s a complete shift in the way we think about solving ...

Nord Quantique unveils Tesseract Code, a breakthrough in quantum error correction that boosts efficiency and reduces system ...

Quantum is critical to US tech leadership—ignoring it risks economic, scientific, and national security setbacks. The tip of ...

Whether bismuth is part of a class of materials highly suitable for quantum computing and spintronics ... important thing in topological materials science is to get the topology of matter right ...