Sandia National Laboratories Director Laura McGill said this week that she believes that in less than 10 years it will have developed quantum computing capabilities “that are scalable to real ...

A wafer-thin flake of bismuth telluride can act a little like a one-way street for electricity, even when the push comes from an alternating signal. But the direction of that “street” is not fixed.

Quantum technologies, devices and systems that operate leveraging quantum mechanical effects, could tackle some tasks more ...

Quantum computers need special materials called topological superconductors—but they’ve been notoriously difficult to create.

The results achieved by QED-C members Amphenol RF, Maybell Quantum Industries, Rigetti Computing, and XMA, in collaboration with NIST, demonstrate improvements in size and performance of control and ...

A new study examined the mechanism governing the nonlinear Hall effect, paving the way for battery-free devices.

Researchers identified a new silicon qubit that emits telecom-band light without fragile hydrogen, potentially enabling ...

Quantum researchers have deployed a new algorithm to manage noise in qubits in real time. The method can be applied to a wide range of different qubits, even in large numbers. Subscribe to our ...

New evidence suggests a rare triplet superconductor may help quantum computers stay in sync by preserving electron spin ...

For nearly a century, some of the simplest questions in quantum theory have stubbornly resisted clean answers, turning basic ...

A new study has revealed how tiny imperfections and vibrations inside a promising quantum material could be used to control ...