The year isn't over yet, but we've already seen record-breaking quantum computers, skyrocketing levels of investment, and demonstrations of real-world benefits.

Cold atom experiments are among the most powerful and precise ways of investigating and measuring the universe and exploring the quantum world. By trapping atoms and exploiting their quantum ...

Strontium titanate’s remarkable ability to perform at extremely low temperatures makes it a key material for next-generation ...

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

Hub for quantum advances grows as additional companies move in The Colorado Quantum Incubator (COQI)—a CU Boulder-led hub for advancing quantum lab-to-market technology translation, research, ...

Stanford scientists found that strontium titanate improves its performance when frozen to near absolute zero, showing ...

Cold atom physics has emerged as a cornerstone of modern quantum science, enabling precise manipulation of atomic ensembles through techniques such as laser cooling and magneto-optical trapping. At ...

SLAC and Stanford scientists uncovered a quantum spin liquid, a state of matter that may have applications for quantum ...

For years, quantum computing sat at the far edge of most strategic roadmaps—important someday, but not urgent now. In 2025, that excuse is gone. Breakthroughs on four separate fronts—bigger and better ...

Quantum computing has real-world implications for organizations across industries because it holds the potential to solve currently unsolvable problems. Life sciences, financial services, logistics ...

The big picture: The Commerce Department is weighing a funding model that would make Washington a direct shareholder in US quantum-computing firms, a move that signals a deeper shift in how the ...