Over the past decades, physicists and quantum engineers introduced a wide range of systems that perform desired functions ...

To make quantum computers more efficient and reliable, some of their basic components must be constantly reused – several ...

Quantum computers are computing systems that process information leveraging quantum mechanical effects. These computers rely ...

Researchers demonstrate spin–photon interface at fiber-optic wavelengths, paving a route to scalable quantum links ...

Princeton researchers have created a superconducting qubit that stays stable more than three times longer than previous designs, marking a major leap toward practical quantum computers.

Pure-plays like IonQ, Rigetti Computing, and D-Wave Quantum remain the most popular opportunities in quantum computing at the ...

For decades, Moore’s Law has held true, with computing power doubling roughly every two years as transistors shrink and costs ...

A Princeton team built a new tantalum-silicon qubit that survives for over a millisecond, far surpassing today’s best devices ...

Nature offers a clue. Across every scale, stability comes not from chance but from structure. Cells rely on four molecular ...

Conventional computing devices will play a crucial role in turning quantum computers into tools with real-world application ...

NCCR SPIN focuses on creating scalable spin qubits in semiconductor nanostructures made of silicon and germanium, with the ...

In a proposal that reads more like the script to a new sci-fi movie, researchers are suggesting a unique way to tackle one of ...