Quantum systems can secretly “remember” their past—even when they appear not to. Scientists found that whether a system shows ...

Over the past decades, quantum physicists and engineers have developed numerous technologies that harness the principles of quantum mechanics to push the boundaries of classical information science.

It’s not easy to study quantum systems — collections of particles that follow the counterintuitive rules of quantum mechanics. Heisenberg’s uncertainty principle, a cornerstone of quantum theory, says ...

In-memory computing, which processes data directly within memory units, is emerging as a powerful solution to overcome the ...

Qubit-agnostic quantum compiler to enable greater modularity, scale, and utility to accelerate the path to utility-scale ...

The original version of this story appeared in Quanta Magazine. It’s not easy to study quantum systems—collections of particles that follow the counterintuitive rules of quantum mechanics.

A new chip-based quantum memory uses nanoprinted “light cages” to trap light inside atomic vapor, enabling fast, reliable storage of quantum information. The structures can be fabricated with extreme ...

Over the past decades, quantum physicists and engineers have developed numerous technologies that harness the principles of quantum mechanics to push the boundaries of classical information science.

Solving quantum computing’s chronic forgetfulness is the aim of a new international project led by the University of Surrey. The work will focus on protecting fragile quantum information from ...