In 2024, a quantum state of light was successfully teleported through more than 30 kilometers (around 18 miles) of fiber ...

RIT and the University of Rochester to receive $2 million in federal funding to advance quantum communication network.

Quantum communication has long promised unbreakable encryption, but the hardware has struggled to escape the lab. A new generation of laser-written glass chips is changing that equation, carving three ...

Efficient generation and reliable distribution of quantum entangled states is crucial for emerging quantum applications, ...

The fragility and laws of quantum physics generally make the characterization of quantum systems time‑consuming. Furthermore, ...

As quantum computers continue to advance, many of today's encryption systems face the risk of becoming obsolete. A powerful ...

Researchers from the CONNECT Centre headquartered at Trinity, working with partners in the IrelandQCI project, successfully ...

A laser-written glass chip shows how fragile quantum signals can be decoded with high stability and low loss, offering a new ...

To push beyond this boundary, the team developed a quantum repeater system capable of creating memory–memory entanglement between two separate nodes. By linking these nodes through entanglement ...

Quantum key distribution promises ultra-secure communication by using the strange rules of quantum physics to detect eavesdroppers instantly. But even the most secure quantum link can falter if the ...

Coherence is the degree to which waves are in phase with each other and thus have the potential to interfere predictably. It underpins coherent quantum communications, in which interference between ...