Link: https://phys.org/news/2023-03-evidence-deeply-bound-dibaryon-built.html
Description: WEBMar 17, 2023 · Dibaryons are the subatomic particles made of two baryons. Their formations through baryon-baryon interactions play a fundamental role in big-bang nucleosynthesis, in nuclear reactions...
DA: 56 PA: 60 MOZ Rank: 20
Link: https://en.wikipedia.org/wiki/Hexaquark
Description: WEBH dibaryon. Others. See also. References. Hexaquark. In particle physics, hexaquarks, alternatively known as sexaquarks, [1] are a large family of hypothetical particles, each particle consisting of six quarks or antiquarks of any flavours.
DA: 98 PA: 24 MOZ Rank: 97
Link: https://scitechdaily.com/a-new-subatomic-particle-the-most-beautiful-strongly-bound-dibaryon/
Description: WEBMay 15, 2023 · This particle, termed D6b, is predicted to have a binding energy 40 times stronger than that of the only known stable dibaryon, deuteron. This discovery, made possible through Quantum Chromodynamics on space-time lattices, could provide valuable insights into the nature of strong forces and quark mass interactions.
DA: 77 PA: 65 MOZ Rank: 21
Link: https://www.sci.news/physics/di-omega-dibaryon-particle-06039.html
Description: WEBMay 25, 2018 · The HAL QCD Collaboration has now used powerful theoretical and computational tools to predict the existence of a ‘most strange’ dibaryon, made up of two ‘Omega baryons’ that contain three strange quarks each. The researchers named the new particle ‘di-Omega.’.
DA: 22 PA: 50 MOZ Rank: 88
Link: https://link.springer.com/article/10.1140/epja/s10050-022-00857-w
Description: WEBOct 20, 2022 · Dibaryon is an exotic state of six quarks, and it is an important place to study non-perturbative effect of quantum chromodynamics (QCD) which is believed to be the fundamental theory of the strong interaction. Dibaryons were proposed by Gell–Mann in 1964 . Since then, there are many predictions on the possible dibaryon …
DA: 98 PA: 62 MOZ Rank: 100
Link: https://www.sciencealert.com/strange-theoretical-hexaquark-di-omega-dibaryon-predicted
Description: WEBPhysics 29 May 2018. By Michelle Starr. (Keiko Murano/RIKEN) Using one of the most powerful computers in the world to perform complex simulations, scientists have predicted a new type of dibaryon particle - one that has two baryons instead of the usual one, with quarks all of the same colour.
DA: 95 PA: 27 MOZ Rank: 62
Link: https://link.springer.com/article/10.1140/epjc/s10052-022-10749-4
Description: WEBSep 8, 2022 · The dibaryon composed of six c or b quarks with $$J^{P}=0^{+}$$ is able to be bound, because the requirement for antisymmetrization between the same baryon clusters introduces an attractive interaction between two fully heavy baryons.
DA: 83 PA: 31 MOZ Rank: 94
Link: https://link.aps.org/doi/10.1103/PhysRevLett.127.072003
Description: WEBAug 11, 2021 · A pair of triply charmed baryons, ΩcccΩccc, is studied as an ideal dibaryon system by ( 2+1 )-flavor lattice QCD with nearly physical light-quark masses and the relativistic heavy-quark action with the physical charm quark mass. The spatial baryon-baryon correlation is related to their scattering parameters on the basis of the HAL QCD …
DA: 28 PA: 78 MOZ Rank: 20
Link: https://iopscience.iop.org/article/10.1088/1674-1137/abcd8e
Description: WEBFeb 1, 2021 · Generally, dibaryons are solely defined by their baryon quantum number . In this sense, we have known since 1932, when the deuteron was discovered [ 2 ], that at least a single one does exist. Owing to its very small binding energy of only 2.2 MeV, the deuteron constitutes a large extended hadronic molecule with a charge radius of 2.1 fm [ …
DA: 19 PA: 73 MOZ Rank: 81
Link: https://arxiv.org/abs/2102.00181
Description: WEBJan 30, 2021 · A pair of triply charmed baryons, ΩcccΩccc, is studied as an ideal dibaryon system by (2+1)-flavor lattice QCD with nearly physical light-quark masses and the relativistic heavy quark action with the physical charm quark mass. The spatial baryon-baryon correlation is related to their scattering parameters on the basis of the HAL QCD …
DA: 57 PA: 89 MOZ Rank: 66
