(dr)
Albert Einstein, Nobel Prize for Physics in 1921
Mathematics will still look for Einstein a lot, which almost a century later continues to inspire models of quantum computers.
When the genius of physics formulated the theory of relativity, he spoke in 2 types: general relativity and special (or described) relativity.
Albert Einstein’s theory of special relativity describes the way movement at a speed near the speed of light affects the experience of space and timeremember to
Now, T. Rick Perche, scientist at the Perimeter Institute of Theoretical Physics in Canada, and colleagues say these relativists They can help develop a specific type of quantum computer.
So far, there was no mathematical model that aggregated quantum computing operations. “It was as if they said, ‘We have flour, we have water, we have the yeast, it is clearly possible to make bread.’ And we really detailed the amount of yeast, the amount of flour, the order, the amount of water,” explains the main author of the published in Physical Review Letters.
Perche and his colleagues resorted to Quantum Information Theory Mathematics Relativist, which explains how ultra-fast movements and interactions can edit the coded information in QBits. It also takes into account the Effects of interactions between quibits and quantum fields that permeate the whole space.
Researchers even managed to test the method, determining how their relativistic quantum computer could execute The algorithm of Fourier’s quantum transform. It is a simple program, but expert Philip Lemaitre explains that it would be useful for all quantum computing researchers.
“The authors carefully and systematically demonstrate that this scheme is in fact viable,” said scientist Eduardo Martin-Martinez, who explains that the model can lead to a new understanding of quantum information processing and quantum fields-and offer a deep way to connect both.
