Progress on Proving the Mass gap for Yang Mills and Gravity (Maybe it’s already proven…)

viXra Pub Date : 2020-06-01 DOI:10.31219/osf.io/q3xu5
Stephane H Maes
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引用次数: 19

Abstract

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.
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证明杨米尔斯和引力的质量差距的进展(也许已经证明了…)
证明和构造可行的杨米尔斯规范是标准模型的一个关键问题,也是一个开放性问题。它只能在格子上解决。然而,引力并没有被纳入标准模型。我们讨论了在引力来自纠缠效应的多重宇宙中,时空是离散的(分数维分形,非交换且仍然是洛伦兹不变)。对于任意洛伦兹不变离散时空,晶格证明及其晶格单元尺寸无关性完成了杨米尔斯规范理论质量间隙的证明。连续的时空可能有也可能没有质量间隙;但如果真实宇宙是离散的且洛伦兹不变,那就无关紧要了。
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