A new study has figured out a way to measure the spin of tin-based qubits with 87 percent accuracy, enhancing the strength of ...

While entangled photons hold incredible promise for quantum computing and communications, they have a major inherent ...

Rapid advancements in artificial intelligence and quantum computing present unprecedented challenges to digital authenticity.

The University of Chicago is a key part of the flourishing quantum ecosystem in Illinois and beyond. With the launch of the ...

The future of tin-based qubits is brighter thanks to breakthrough work by Stanford University researchers. Qubits are the fundamental carriers of quantum information, and scientists worldwide are ...

While entangled photons hold incredible promise for quantum computing and communications, they have a major inherent disadvantage. After one use, they simply disappear. In a new study physicists ...

A six-layer crystal device generates entangled photons efficiently, offering breakthroughs in communication and quantum ...

According to the researchers, the findings could have many future applications in quantum communication, metrology, and ...

The new Emmy Noether junior research group “Quantum Network Nodes” was launched at the beginning of the year. It focuses on ...

A team of researchers has developed innovative methods to enhance frequency conversion of terahertz (THz) waves in graphene-based structures, unlocking new potential for faster, more efficient ...

It's also a promising qubit for a future quantum internet—a potential communication network, similar to the internet we're familiar with, that transmits information through quantum principles.