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Crystals Have Been Used to Generate Truly Random Numbers For The Very First Time

Randomness is not always as random as you think. It’s actually very challenging for computers to generate true randomness, because algorithms introduce subtle patterns that can be detected, meaning the numbers they come up with are pseudorandom, and not ultimately unpredictable.

Which is not to say machines can’t play a part. What if we took something, like a robot, and combined it with a truly random process? Scientists have made just such a thing, harnessing the innate unpredictability of chemistry in a way that’s never been done before: in this case, watching crystals grow.

Crystallisation is not actually a chemical reaction, but a physical change that happens when crystal solids form from the products of a reaction, and researchers say the randomisation possibilities provided by the crystallisation process may be endless.

“In a chemical system, each time a reaction is performed there is an almost infinite number of energetically equivalent ways for particular reagents to combine, resulting in both high uncertainty and entropy, and the exact pathway undertaken will never be repeated,” a team from the University of Glasgow explains in a new study.

“As such, the entropy of such a chemical system is extraordinarily high, and may therefore serve as a very good entropy pool for application of random number generation.”

In the new work, the researchers exploited this seemingly endless potential for randomness by building a robotic system to prepare, initiate, and monitor hundreds of parallel chemical reactions in a vast array of chemistry vials.

As crystals grew randomly in each vial, the robot would observe the formations via camera, detecting and recording the myriad of variables resulting, including crystal location, size, shape, orientation, and colour.