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Forums
Physics
Beyond the Standard Models
Evidence of Strong Equivalence Principle Violations?
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[QUOTE="robwilson, post: 6434481, member: 685414"] The only problem I see with it is that it is a classical analysis, not a quantum analysis. If you are looking at a regime in which the gravitational field is very weak, then it seems to me self-evident that you have to consider the possibility that the gravitational field is quantised, and that this affects what is going on. In electromagnetism, the effects of charge are inverse square, but the effects of spin (magnetism) are inverse linear, and surely something of the same nature is going on in quantum gravity to produce the MOND effects. This means that the crossover point comes where the (inverse-square) bosons become so weak that the (inverse linear) fermions take over. At a local level, it does not matter whether the bosons arrive from a local source or from outside, if there are enough of them, they dominate. They sweep up the local neutrinos, so that they forget the gravitational mass of the electrons they came from, and put their energy into a bosonic graviton, where it has much less effect than if it was allowed to hunt on its own. Well, that's my theory, based on the framework for quantum gravity that is sketched in arxiv:2009.14613v5. [/QUOTE]
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Beyond the Standard Models
Evidence of Strong Equivalence Principle Violations?
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