Another massive shift compared to most quantum computing technology is that light cage memory operates slightly above room temperature and does not require cryogenic cooling. This makes it not only ...

Shape memory alloys are exotic materials that can be deformed at room temperature and return to their "remembered," ...

Near absolute zero, atoms stop acting like particles and start behaving like waves. In this ultracold world, scientists can ...

Suppose you’re a CIO or senior application planner, and you need to understand whether you should dig into quantum computing ...

The Quantum Science Center will develop hybrid computing architectures that integrate quantum computers with leadership-class ...

A stable "exceptional fermionic superfluid," a new quantum phase that intrinsically hosts singularities known as exceptional ...

Two landmark quantum experiments have sharpened one of the oldest arguments in modern physics, and the verdict is not kind to ...

Excerpt: Researchers at Raman Research Institute demonstrate a technique revealing local atom density while preserving the ...

Physicists have created a perfect conductor from ultracold atoms, enabling energy to flow without resistance, forever!

Most of today's quantum computers rely on qubits with Josephson junctions that work for now but likely won't scale as needed ...

Physicists have long treated space and time as the stage on which quantum particles perform, not as actors in the drama ...

One of the great successes of 20th-century physics was the quantum mechanical description of solids. This allowed scientists to understand for the first time how and why certain materials conduct ...