A Scientific Achievement That’s Totally Random

Encryption systems rely on “random” numbers, but conventional computers can’t generate them perfectly. New research shows that quantum physics can.
Nature

Semi-device-independent quantum random number generator with a broadband squeezed state of light

Random numbers are a basic ingredient of simulation algorithms and cryptography, and play a significant part in computer simulation and information processing. One prominent feature of a squeezed ...
Nature

Source-independent quantum random number generators with integrated silicon photonics

Random numbers play a crucial role in numerous scientific applications. Source-independent quantum random number generators (SI-QRNGs) can offer true randomness by leveraging the fundamental ...
Design And Reuse

Fraunhofer IPMS unveils Q‑Dice: Quantum Random Number Generator delivering multi‑Gbps true randomness for secure applications

Fraunhofer Institute for Photonic Microsystems IPMS announces Q‑Dice, a high‑performance Quantum Random Number Generator (QRNG) that generates randomness based on quantum vacuum fluctuations. The ...
Phys.org

Quantum mechanics provide truly random numbers on demand

Randomness is incredibly useful. People often draw straws, throw dice or flip coins to make fair choices. Random numbers can enable auditors to make completely unbiased selections. Randomness is also ...
Informationsdienst Wissenschaft

Quantum Random Number Generator delivering multi‑Gbps true randomness for secure applications

Fraunhofer IPMS announces Q‑Dice, a high‑performance Quantum Random Number Generator (QRNG) that generates randomness based on quantum vacuum fluctuations. The system delivers true random numbers at ...