Experiments show that a time crystal based on magnons can interact with mechanical waves without being destroyed.

The curious minds at ColdFusion explain how quantum computers will transform our world. This matters because quantum ...

Quantum computers are powerful, lightning-fast and notoriously difficult to connect to one another over long distances.

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

With advanced simulations, scientists at Argonne, UChicago have created a way to predict and engineer new properties for ...

Computing firm Quantinuum has provided the hardware for many outstanding feats in quantum computing over the past few years.

Scientists have developed a new way to build rare-earth crystals that boosts quantum coherence to tens of milliseconds. This leap could extend quantum communication distances from city blocks to ...

Electricity powers our lives, including our cars, phones, computers, and more, through the movement of electrons within a ...

Superconductivity and quantum computing have moved from theoretical physics into real-world innovation. The 2025 Nobel Prize in Physics ...

Physicists have discovered how to make electrons “freeze” and “melt” into bizarre quantum patterns, forming a new kind of matter where solid and liquid coexist. Electricity drives nearly every aspect ...

Quantum computers can perform certain calculations at remarkable speeds, yet connecting them over long distances has been one of the major obstacles ...

High-pressure electron tunneling spectroscopy reveals the presence of a superconducting gap in H₃S and D₃S. Superconductors are special materials that allow electricity to flow without any resistance, ...