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

Physicists at ETH Zurich have generated perfect random numbers using quantum entanglement, a breakthrough crucial for ...

Researchers have developed a quantum method to amplify less random numbers to certifiably random ones, enhancing digital ...

Randomness plays a critical role in the unpredictability of modern casual games, especially in digital entertainment that ...

The randomness in quantum physics is imperfect and needs amplification to be considered truly random, the researchers say.

Physicists used quantum bits to achieve perfect randomness for the first time ever. The results of their research could ...

(Busà Photography/Moment/Getty Images) One of the hardest things to do in physics is to generate true, provably unpredictable ...

Researchers at ETH Zurich have developed a method to generate what they describe as ...

Creating perfect randomness is surprisingly difficult. Even modern random number generators never generate completely ideal random numbers: small systematic errors can result in some numbers appearing ...

Creating perfect randomness is surprisingly difficult. Even modern random number generators never generate completely ideal random numbers: small systematic errors can result in some numbers appearing ...

Perfect randomness sounds simple, until you try to make it. A die can be polished, balanced and rolled thousands of times.

Random number generators have been around for ages, but they often have subtle imperfections that cause patterns to emerge. And even powerful computers are saddled with this liability purely because ...