Supercomputers predict exotic six-quark particles

Supercomputers predict exotic six-quark particles

Scientists have long wondered if there are two baryon systems called diberians. Only one diphtheria, called deuteron, was found to be present in nature. This deuteron contains a hydrogen nucleus made up of a proton and a neutron that is slightly bonded to each other.

In nuclear-physics experiments, scientists have caught the eye of other Debian. But, they had a very short existence.

Scientists say there may be many more diphtheria. It is important to examine which pair of baryons make up the dioecious and which is not, as it provides valuable insights into how Quarks Form means.

Ricken Scientists have recently predicted an existence Exotic particle It is made up of six basic particles called quarks. This discovery provides a comprehensive understanding of how quarks combine to form nuclei of atoms.

By calculating the force acting on two baryons, there are three attractive quarks in each (one of six types of quarks), and scientists have predicted that they have a diphenhydramine called charm de-omega.

Scientists solved quantum chromodynamics using large-scale numerical calculations. They used two powerful supercomputers: the K system and the HOKUSAI supercomputer, for calculations that included multiple variables.

Takuya Tsukura of the RIKEN Interdisciplinary Theoretical and Mathematical Science Project Said, “We’re very lucky to have access to supercomputers, which dramatically reduced the cost and time to do the calculations, but it still took us many more years to predict the existence of the charm de-omega.

“Despite the complexity of the calculations, Charm is a simple system for studying the relationships between D-Omega. Perians. Sukiyura and his team are now studying other fascinating hotspots using the supercomputer Fukuoka, the powerful heir to the gay computer.

“We are particularly interested in the interactions between other particles with attractive quarks, which we hope will shed light on the mystery of how quarks combine to form particles and what types of particles can exist.

Press Release:

  1. Lyu, Y., Tong, H., Sugiura, T., Aoki, S., Doi, T., Hatsuda, T., Meng, J. & Miyamoto, T. Dibaryon, lattice QCD has more charm near Unity. Letters of Physical Review 127 072003 (2021). DOI: 10.1103 / PhysRevLett.127.072003
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