Authors: Dmitri Martila
My MOND proposal includes General Relativity as a special case, i.e. I have effects of General Relativity in many areas of spacetime. I argue that my proposal can describe Dark Matter as well if one understands the modification of gravity as a tensor field X^{\mu\nu}(t,x,y,z) in the Einstein equations, i.e. as an additional mathematical parameter filling the Universe without correspondence to new particles. Notably, there are many different fields in nature, e.g. the Higgs field, the inflaton field, and the temperature distribution field T(t,x,y,z). My testable prediction that they will never find weakly interacting Dark Matter particles is well-realized up to today; therefore, Popper's falsifiability criterion is satisfied because the underground detectors could report the signal. On the other hand, the testable proof would be the indirect discovery of the sterile neutrino. As it does not interact with visible matter even weakly, it is an example of X^{\mu\nu}. This justified theory, applied to key problems of Physics, provides satisfactory answers.
Comments: 8 Pages. Rejected by many top journals without review
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[v1] 2020-07-15 01:11:33
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