Quantum computing takes a leap forward with fiber-optic-connected qubits, making large-scale and networked quantum systems ...

Quantum computers run at temperatures just a hair above absolute zero. And keeping them humming along at these temps requires ...

In a paper published earlier this month in Physical Review Letters, a team of physicists led by Jonathan Richardson of the University of California, Riverside, showcases how new optical technology can ...

Relativity Networks, an Orlando-based startup focused on hollow-core fibers (HCF) developed at the nearby College of Optics ...

Qubits—the fundamental units of quantum information—drive entire tech sectors. Among them, superconducting qubits could be ...

UCF researchers have developed a patent-pending hollow-core fiber (HCF) cable that transmits data nearly 50% faster than ...

Researchers have developed a novel experimental platform to measure the electric fields of light trapped between two mirrors with a sub-cycle precision. These electro-optic Fabry-Perot resonators will ...

Semantic communication, an emerging technology, has garnered considerable attention for its potential to enhance transmission efficiency. This ...

QphoX, Rigetti Computing (RGTI), and Qblox announced that their joint research demonstrating the ability to readout superconducting qubits ...

Of the quantum computing modalities, superconducting qubits are a leading platform towards realizing a practical quantum computer given their fast gate speeds and ability to leverage existing ...

We review basic principles of modern optical magnetometers, discuss fundamental limitations on their performance, and describe recently explored applications for dynamical measurements of ...