Authors: Thomas Preusser
In 2015 scientists at the Large Hadron Collider (LHC) announced the first ever statistically significant observation of a “pentaquark” subatomic particle (R. Aaij, LHCb collaboration, Phys Rev Lett 115, 072001, 12 August 2015). Such a “pentaquark” subatomic particle is allowed within the framework of quantum chromodynamics (QCD) theory which encompasses quark and gluon strong binding interactions. The “pentaquark” is an up-down-up-charm-anti-charm quark combination, i.e. five quarks, hence the name “pentaquark”. The hundreds of papers following pentaquark discovery mostly try to extend current QCD mathematics to explain the pentaquark. These explanations fall short of dealing with the networked processes of the pentaquark. This paper comes at the pentaquark from a higher level networked complex adaptive systems perspective. Ultimately this involves a new theory, General Projective Relativity (GPR), which is based on probabilistic computational entanglement in a projection geometry that goes beyond holographic and ultimately offers promise in furthering scientific knowledge across a wide spectrum including dark matter and dark energy.
Comments: 6 Pages.
[v1] 2017-01-21 04:56:54
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