A team of researchers in China claims to have made the first conclusive demonstration of ‘quantum advantage’ – using quantum mechanics to perform calculations that would be too slow on classical ...

The BMFTR-funded SPINNING project has successfully demonstrated that hybrid-integrable, scalable, and near-room-temperature solid-state quantum components represent a robust and energy-efficient ...

Researchers integrate quantum optics into semiconductor chips, enabling scalable, low-cost quantum computing and photonic ...

Experiments show that a time crystal based on magnons can interact with mechanical waves without being destroyed.

Realising that most of the established methods are very expensive, Pune-based deep-tech startup Quanfluence has developed a ...

Quantum computers are powerful, lightning-fast and notoriously difficult to connect to one another over long distances.

QuiX Quantum, a Dutch photonic quantum computing pioneer, has secured more than $17 million in Series A funding to deliver the world’s first single-photon-based universal quantum computer in 2026. The ...

Scientists have developed a new way to build rare-earth crystals that boosts quantum coherence to tens of milliseconds. This ...

Competitors not using photonic quantum computing can't support the transmission of data without additional equipment and costs. Photons are also excellent at cybersecurity. Each photon possesses a ...

The concept of quantum entanglement is emblematic of the gap between classical and quantum physics. Referring to a situation in which it is impossible to describe the physics of each photon separately ...