Physicists create the first Qubit at all, making the quantum world until the strangest

Readers who follow our existential physics cover may remember A Conversation From Cern regarding the evil twin, antimatter. Distinguished ambiguity in physics is that our world contains a matter of more than anti -pregnancy, which contradicts most theoretical predictions. Therefore, scientists want to explain the reason and how this is the case.

CERN has declared another important leap to study Antimatter – this time, the achievement infiltrates the world of quantum computing. in nature A paper published on July 23, Cern’s Antibari symmetry experience (base) Cooperation announced the first offer at all to decide the quantity of counterpart, or the smallest unit of information for quantum computers.

Qubit in the question is an anti -proton, an anti -protection counterpart, which has been caught in a strange amount – progressing back and forth between the “up” and “bottom” situations in an ideal rhythm. The fluctuation lasted for 50 seconds. The researchers claim that the technical ingenuity that enabled this result represents a great jump forward in our understanding of anti -anti -anti -anti -anti -anti -anti

As for the experiment, the team applied a technique called coherent quantum transitional analysis, which defends – with a chilling accuracy – a magnetic moment of particles, or its behavior within the magnetic fields. First, the team brought some counter -peak CERN Anti -FactoryBesieging the particles in Electromagnetic trapOvercoming magnetic fields. After that, they created a second multi -phase disbursement within the same magnet, and they extracted individual anti -anti -aids to measure and adjust the particles of the particles in this process.

Quantum cases are fragile and easily disturbed by external deviations. The wrong batch can send them immediately Training the exchange towards deviation– At any point, the system loses that physicists are valuable information hope to find it. This basic restriction of quantum systems was a great concern for the basic cooperation, which in 2017 used a similar preparation for the new experience to confirm this Protons and anti -episodes had practically identical magnetic moments.

The team made great reviews of its technologies, while paying special attention to developing the mechanisms needed to suppress and eliminate dismantling. This hard work pays its fruits; Antiproton made a stable quantitative swing for 50 seconds – a movement closer to how Qubits was in passengers of cases, which can theoretically allow them to store a lot of information. In addition, this was the first time that physicists have noticed this phenomenon in one nuclear magnetic moment, while previous experiences did not see them except in large groups of particles.

“This is the first Qubit Qubit the first and opens the possibility of applying a full set of coherent spectrum analysis methods for individual material and anti -accurate systems,” said foundation spokesman Stephen Olmeer in A. statement.

However, the team does not believe that the new results will introduce Qubits anti -computing quantitative, at least not any time soon.

“It is not logical to use (QUBIT) anti -quantum computers at the present time, because, simply, the engineering related to the production and storage of antibiotics is much more difficult than the regular material,” Latakz explained, adding that since the known material and antibiotics share the basic properties, and I chose the latter will not have a practical meaning. “However, if it is in the future (we find) that the antagonist acts differently from the issue, it may be interesting to consider this.”

Lazz said that there are additional improvements that the team hopes to make, which will happen very soon. She said that the promotions to a base-a basic step full-will greatly lead to improving our ability to study anti-peaks with higher accuracy and allow us to “improve the measuring of the magnetic moment of at least anti-peaks with a 10 factor, and in a longer perspective until a 100 factor”, she said.

The new penetration can contribute to engineering progress in quantum computing, atomic watches and other areas. But as researchers assert, these technological applications are not anything that we must expect soon. However, the result itself provides some wonderful lessons for basic physics – questions that may take years to answer, but the quotation from the physicist Sean Carroll from finding the last Cern, “Well, it is a small part of a much larger puzzle – but you know, every important part.”