Silicon is ubiquitous in modern electronics, and now it is becoming increasingly useful in quantum computing. In particular, silicon's compatibility with existing chip technology and its long coherence times in silicon-based spin qubits make it a promising material for scalable quantum computing.

A new microchip-sized device could dramatically accelerate the future of quantum computing. It controls laser frequencies with extreme precision while using far less power than today’s bulky systems. Crucially, it’s made with standard chip ...

SEEQC today announced a significant breakthrough in the development of scalable, chip-based quantum computers, with results published in a peer-reviewed study in Nature Electronics. The publication reports the first demonstration of a full-stack quantum computing system with digital superconducting logic for qubit control operating reliably at millikelvin temperatures in the same cryogenic environment as quantum bits (qubits).

Scientists in the Riccio College of Engineering at the University of Massachusetts Amherst and the University of California Santa Barbara have demonstrated key laser and ion trap components necessary to help drastically shrink the size of quantum computers,

Quantum technology has quietly crossed a threshold that many researchers compare to the moment transistors replaced vacuum tubes and rewired the global economy. The hardware is still fragile and exotic, but the core building blocks are now robust enough ...

An international team of scientists proved the never-before-seen molecule's exotic nature using a quantum computer, potentially ushering in new scientific opportunities.

How can a computer chip the size of a human hair enhance the future of quantum computing? This is what a recent study published in Nature Communications hopes to address as a team of researchers investigated a new device that could greatly reduce the size ...