Superconductor cubits are extremely fragile. Even so, if we stick to the number of companies that are working on this type of quantum bits it is reasonable to conclude that this is the technology that has greater support and greater investmentso, somehow, is the one that goes in the lead. This strategy is probably the one that will help us to have more cubits, but also It is more prone to make mistakes That ion traps cubits, which are one of the alternatives to superconductors.
In addition, these last cubits are characterized by working at a temperature of about 20 millikelvin, which are approximately -273 degrees Celsius, with the purpose of operating with the greater degree of isolation of the possible environment. IBM is one of the companies that have opted to set Quantum computers With superconductor cubits, and plans to make available to its customers in 2029 ‘Starling’, its first large -scale quantum computer equipped with the capacity to amend your own mistakes. However, something happened that can complicate the plans of this and other companies involved in the development of quantum computers.
And is that a group of researchers from the Academy of Quantum Information Sciences (China) has discovered that Cosmic rays and Gamma radiation They have the ability to cause errors in superconductor cubits. This discovery is very important because it justifies the need to develop technologies that allow building reliable quantum computers despite the interference of cosmic rays and gamma rays. These scientists have published the result of their research in Nature Communications.
Cosmic rays are putting quantum computers in trouble
Researchers from the Academy of Quantum Information Sciences of Beijing have carried out this discovery using a 63 -cubits superconductor quantum processor. However, their most ingenious idea led them to install muones detectors within the quantum computer cooling system. This strategy allowed them to realize that gamma rays and cosmic radiation were inducing the appearance of errors in the extremely fragile superconductor cubits, thus weakening their ability to maintain coherence.
It is evident that to solve a problem it is essential to identify it and know its origin, so it is good news that these scientists have made this discovery. However, before concluding this article I propose that we review briefly What are these two forms of radiation. Cosmic rays are constituted by high -energy ionized atomic nuclei that move through space at a speed very close to that of light (which is approximately 300,000 km/s).
Cosmic rays are constituted by high -energy ionized atomic nuclei that move through space at a speed very close to that of light
That they are ionized indicates that they have acquired electric charge because they have been stripped of their electrons, but, curiously, these atomic nuclei are made of the same matter that constitutes us and everything that surrounds us. However, and here comes the first surprise, the atomic nuclei that constitute the cosmic rays are distributed in a different way to the subject that shapes us. Hydrogen and helium are much more abundant in our solar system than in cosmic rays, while other heavier elements, such as lithium, beryllium or boron, are ten thousand times more abundant in cosmic radiation.
One of the most important characteristics of cosmic radiation is its essentially perfect isotropy. This parameter reflects that the rays arrive from all directions with the same frequency, which indicates that they must coexist simultaneously numerous sources capable of generating them. And this invites us to ask ourselves one more question: where cosmic radiation comes from. A good part of the cosmic rays we receive proceed from outside our solar system. Of other stars. And travel through space with enormous energy until impacting with the atoms present in the upper layers of the atmosphere of our planet.
Finally, Gamma radiationwhich is the most energetic and the most penetrating of all, requires the emission of a high -energy photon, usually known as Rayo Gamma, so the atomic nucleus maintains its original structure. Some of these high -energy photons are able to cross very thick concrete walls and lead plates, so this is the most dangerous radiation form of all.
More information | Nature Communications
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