Scientists have turned simple glass into a powerful quantum communication device that could safeguard data against future quantum attacks. The chip combines stability, speed, and versatility—handling ...

Understanding randomness is crucial in many fields. From computer science and engineering to cryptography and weather forecasting, studying and interpreting randomness helps us simulate real-world ...

In the strange world of quantum computing, randomness isn’t just noise. It’s a powerful resource. Whether you’re designing secure cryptographic systems, simulating processes that occur in nature, or ...

Quantum computers can produce randomness much more easily than previously thought, a surprising discovery that shows we still have much to learn about how the strange realm of quantum physics ...

Key generators are a foundational technology in cryptography to keep enterprise communication and systems secure. Threat actors are attempting to predict patterns of conventional key generators to ...

Researchers have pushed quantum chip design into a new era by simulating every physical detail before fabrication. Using a ...

The 2025 Nobel prize in Physics has been awarded to three scientists for the discovery of an effect that has applications in medical devices and quantum computing. John Clarke, Michel Devoret and John ...

Noisy IBM quantum computers can produce random numbers certified by the laws of quantum mechanics 1, research has shown. Conventional random number generators rely on predictable mathematical ...

A quantum random-number generator has been developed that uses classical cryptography to certify that its output was produced by a quantum process. A truly random number is generated by a process ...

Rob Morris does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond their ...