There is a big problem with quantum technology—it's tiny. The distinctive properties that exist at the subatomic scale ...

Scientists have found a new way to control quantum information using a special material, chromium sulfide bromide. It can ...

When it comes to layered quantum materials, current understanding only scratches the surface; so demonstrates a new study ...

Scientists are turning to supramolecular chemistry to design new, more efficient and flexible molecular qubits for quantum ...

The distinctive properties that exist at the subatomic scale usually disappear at macroscopic ... The atomic lattice structure of the layered magnetic semiconductor chromium sulfide bromide (CrSBr) ...

Quantum technology struggles with scaling up, as the special properties of quantum materials typically vanish in larger structures. Researchers have now found a way to maintain quantum properties in ...

Quantum sensors take the biggest roadblock for quantum computers—unwanted interference, or noise—and turn it into a strength. Noise wrecks quantum computers because the quantum states they use for ...

In a significant decision, the Federal Circuit reversed the U.S. International Trade Commission’s (ITC) finding that claims of U.S. Patent ...

Quantum computers have the potential to change technology by solving complex problems that traditional computers cannot ...

Controlling how electrons interact in semiconductors is crucial for the development of electronic and optical devices. Quantum scientists have now discovered a surprisingly efficient new mechanism to ...

The distinctive properties that exist at the subatomic scale usually disappear at macroscopic scales, making it difficult to ...