| viXra.org > Quantum Gravity and String Theory > viXra:2006.0155 |
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| viXra.org > Quantum Gravity and String Theory > viXra:2006.0155 |
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Quantum Gravity and String Theory |
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Authors: Stephane H Maes
Proving and constructing viable Yang Mills Gauge is a key concern for the Standard Model and an open problem. It has only be solved on lattices. Yet, gravity is not modeled in the Standard Model. We discuss that in a multi-fold universe where gravity emerges from entanglement effects, the spacetime is discrete (fractal with fractional dimensions, noncommutative and still Lorentz invariant). For any Lorentz invariant discrete spacetime, the lattice proofs and their lattice cell size independence completes the proof of the mass gap for Yang Mills Gauge theories. Continuous spacetime may or may not have a mass gap; but it does not matter if the real universe is discrete and Lorentz invariant.
Comments: 3 Pages. This submission grants viXra.org a non-exclusive license to distribute the article. I certify that the submitter has the right to grant this license. Revocability would be only if preprint removal were a condition for final publication.
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