As the digital world continues to produce enormous amounts of data—over 2 quintillion bytes every day—our current storage ...

Researchers have developed a promising new optical memory technology using rare earth elements and quantum defects to enable ...

This new method involves transferring optical data using a rare-earth element to a quantum defect, which is a specific type ...

This paper investigates the impact of classical driving fields on open quantum batteries. By optimizing detuning and coupling ...

Aug. 15, 2024 — A team of physicists envisions a modular system for scaling quantum processors with a flexible way of linking qubits over long distances to enable them to work in concert to ...

As our digital world generates massive amounts of data—more than 2 quintillion bytes of new content each day—yesterday's ...

Rochester Institute of Technology has been awarded $3.97 million from the Northeast Regional Defense Technology Hub (NORDTECH) to advance quantum chip technologies. The focus will be on scaling the ...

A novel form of memory has been proposed by researchers at the University of Chicago’s Pritzker School of Molecular ...

Sep. 16, 2024 — Researchers have developed a method to model a central theory of quantum gravity in the laboratory. Their goal: to decipher previously unexplained phenomena in the quantum ...

Quantum squeezing is a concept in quantum physics where the uncertainty in one aspect of a system is reduced while ... More information: Le Bin Ho, Squeezing-induced quantum-enhanced multiphase ...

“Achieving this level of fidelity is a major milestone in the quantum computing industry, as it marks a critical threshold for enterprise-grade systems – the better the native gate ...