Submissions from Robert P. Mann
- [1] faKiv:2404.08593 [pdf]
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Beyond the Standard ModelComments: 31 pages, 2 figures, a few clarifications in the conclusion. v2: minor changes
We discuss the implications of recent results of the gamma-ray astrophysical observations that we anticipate will eventually lead to a new gravity model in the context of the Standard Model. We demonstrate that the latest cosmological observations can be used to reconstruct a family of models that can account for the cosmological constant and the matter content of the Universe. We review recent results of the Measurement of Cosmic Microwave Background (MMJ) and the Hubble Space Telescope (HST), and provide some discussion of the consequences of these observations for the cosmological constant, the matter content of the Universe, and the range of model parameters.
- [2] faKiv:2404.08686 [pdf]
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Topological aspects of a black holeComments: 12 pages, v3: minor typos corrected
We clarify some basic notions of the, underlying black hole, in the context of a topological perspective. It is shown that the black hole is a real object, and that the spacetime geometry has a real structure. It is shown that the black hole is constructed from the space-time of a black hole observer. To illustrate this result, we construct a black hole observer, one whose space-time is a sphere and whose orbit is a point on a boundary. The observer's space-time has a real structure, and the observer's orbit is a point on a boundary. Our results establish that the black hole observer is a real object in the generic sense.
- [3] faKiv:2404.08694 [pdf]
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The Einstein-Bosch-Abelian model and thermal neutrinosComments: 11 pages, 10 figures. arXiv admin note: text overlap with arXiv:1609.08571
We study the Einstein-Bosch-Abelian model in the context of the thermal neutrino theory. We show that the Einstein-Bosch-Abelian model is a complete model in which the thermal neutrino condensates are quantum-mechanically distinct, thus providing a smooth transition in the neutrinoless phase of the model. We study the thermal neutrinos in the Einstein-Bosch-Abelian model and show that the thermal neutrinos have the same mass as the thermal neutrinos in the thermodynamical phase of the model. We also comment on possible implications of this result for the non-perturbative study of the thermal neutrinos in the model.