Imitation shows Pune’s interactions with abnormal precision hugs field

With the help of modern mass imitation on various supercomputers, physicists at Johannes Gutinberg University Men’s (JGU) have been able to gain new insights about the previous ridiculous aspects of the physics of strong mutual interaction.

Associate Professor Dr. George Van Happel and Dr. Constantin Otnad from the Institute of Nuclear Physics and Permas+ Cluster of Excellence have calculated the interaction of Pune with an extraordinary precision hygis field based on quantum chromodnamics. Their searches were recently published Physical review posts.

As a massive simulation as a single option

The physics of strong interaction describes the characteristics of nuclear nuclei and the characteristics of the nucleon containing them. The interactions are based on the characteristics of quarters and glue, which in turn is described by quantum chromodamics (QCD), which is the main theory of strong interaction.

One of the challenges in a strong interaction study is that the characteristics of these particles cannot be easily calculated directly from the QCD. Instead, the numerical methods, especially in the net, are used. In the Jali QCD, the quarters, gloves, and their interaction are imitated at a unique grid – or mesh – or mesh.

Although this procedure has enabled considerable development, it has its own difficulties: on the one hand, the effects of this explanation of the space and time on the calculation should be well understood. On the other hand, imitation requires computing power that can only be provided by supercomputers.

However, in low energies, strong interaction can often be better described within the framework known as the “Cherry Petrocer Theory”. Building blocks of this framework are light Mason, such as Pune, which acts as a “interaction carrier” and arbitrarily arbitrate a strong interaction between nuclear.

This theory is based on the principles of the QCD and includes all the features of basic quarters and globin. However, as a result, physics is described in different ways.

Van Hapil explains, “You can understand it with a resemblance to everyday life.” We all know that water contains H₂O molecules, but when it is present in front of us, it is more practical to describe it as a special density, surface stress, and a liquid with viscosity, which is, ultimately, from the properties of H.₂O Anu. “

To properly reproduce the characteristics of the QCD, the theory of the Cherl Riot is dependent on the so -called low -energy series. They describe the power of different interactions between Mason and the external sectors such as the electromagnetic field.

“Some of these less of these less energy can be deployed, and it should be calculated using the QCD,” says Van Hapil. Now we have set such a low energy permanently for the first time. It is understood as a Pune dialogue with Higgs Field.

Glorious QCD’s large -scale impressions on supercomputers are the only way to calculate less energy than QCD. Thanks to the specially designed algorithm, Van Haple and Otnad managed to get fake results with more than 10 times the accuracy of the previous calculation.

“We were able to determine the unknown value of the previously, with a fake imitation accuracy controlled by fake imitation,” says Van Haple. Van Haple and Otnad calculated on supercomputers on supercomputers on supercomputers. V. Libnies Supermapting Center and Jelich Super Computer Center as well as Men’s High Performance Computing Clusters Chloore, Mogon NHR, Mogon II, and Hamist -2.

Pune’s radius is calculated with abnormal precision

However, Van Haple and Otnad not only used their calculations to determine the less energy of the Chairlothess Theory. For a recent dissertation published in the Journal Physical Review dHe also used his approach to calculate the contribution of extraordinary precision Pune.

The essence of Van Hapil is that “our work shows that the quantities that were previously considered unacceptable are now accessible to the modern net for the CD -CD enclation.” “Our results are the first steps in a new phase of fake calculations. In the future, we want to determine other physical quantities, such as mine ready or quarters.”