Artificial intelligence designs the experiences of new strange physics that are already working

“This is the huge thing that thousands of people were thinking about 40 years deep,” said Everm Steinberg, an expert in this. Quantity Optics at the University of Toronto. “They thought about everything they could have, and anything new (artificial intelligence) is evidence that something of thousands of people failed to do.”

Although artificial intelligence has not yet led to new discoveries in physics, it has become a powerful tool throughout the field. Besides helping researchers to design experiments, he can find non -trivial patterns in complex data. For example, artificial intelligence algorithms collected symmetries of the nature of the data collected in the Hadron Big Creater in Switzerland. These symmetries are not new – the key to Einstein’s theories of relativity – but the discovery of artificial intelligence is evidence of the principle of what will come. Physicists also used Amnesty International to find a new equation to describe the invisible dark matter in the universe. “Humans can start learning from these solutions,” said Adhikari.

Regardless but together

In classic physics that describe our daily world, things contain well specific properties independent of attempts to measure these characteristics: billiard balls, for example, have a certain position and momentum at any moment of time.

In the quantum world, this is not the case. A quantitative object is described by a sports entity called quantum condition. The best that he can do is to use the situation to calculate the possibility of the object, for example, in a specific location when you are looking for there.

What is more, quantum (or more) quantum organisms can share the same amount of quantity. Take the light, which is made of photons. These photons can be generated in “interlocking” pairs, which means that the photons share in the case of one shared amount even if they are disintegrated. Once a photon is measured, the result appears to immediately determine the other properties – now far.

For decades, physicists assumed that tangle requires that quantum beings begin in the same place. But in the early nineties, Anton ZelingerWho will do later Get the Nobel Prize in Physics For his studies on tangles, he showed that this was not always true. He and his colleagues suggested an experiment that started with two unrelated pairs of interlocking photons. Photons A and B are tangled with each other, as well as photons C and D. Researchers after that Invented a smart demo design Made of crystals, division of beam and reveals that will work on photons B and C – one photon of each of the interlocking husbands. Through a series of operations, photons B and C are discovered and destroyed, but as a product, partner and D particles, which have not previously interacted, are tangled. This is called the exchange of tangles, which has now become an important brick of quantum technology

This was the situation in 2021, when the Krenn team began designing new experiences with the help of programs called Pytheus -PY -Py -Python, and Theus for thisus, after the Greek champion who killed the legendary Minotaur. The team is like visual experiences using mathematical structures called graphs, which consist of the contract related to lines called edges. The nodes and edges represent different aspects of the experiment, such as beam divisions, photons paths, or whether or not photonists have interacted.