dorsal/arxiv
View SchemaDark Matter, Antimatter and Time-Symmetry
| Authors | Trevor Pitts |
|---|---|
| Categories | |
| ArXiv ID | physics/9812021 |
| URL | https://arxiv.org/abs/physics/9812021 |
Abstract
If space, time and mass-energy expand outward from the Big Bang along the time axis equally in the (+) and (-) directions, then time is symmetric by Weyl's definition. In the Feynman-Stueckelberg Interpretation, antimatter is identical to matter but moves backward in time. This paper argues this interpretation is physically real, leading to the universe containing dark matter with mass accumulations similar to ordinary matte. As time expands, in both directions away from the origin, quantum uncertainty allows a brief, decreasing leakage of mass between (+) and (-) universes. Matter leaking from (-) to (+) time moves forward in time, producing preponderance of matter in (+) time. Antimatter leakage from (+) time to (-) time in the same way produces antimatter preponderance in the (-) time universe. The remaining opposite partner particles left by the leakage, (antimatter and matter respectively) proceeding outward in antitime and time respectively, after many annihilations also increase the two preponderances in the two universes. The anti-universe should be observable by gravitational lensing, predicting "MACHOS" of approximately stellar mass, and multiple micro-lensing of quasars. Non-existence of primordial antimatter of Z>1, and a large variation in the quantities of dark matter associated with different individual galaxies are predicted. A symmetry is provided for Nodland and Ralston's observed maximum axis of rotation of polarization of galactic synchrotron radiation. A new solution of the horizon problem at times close to the origin is indicated. Collapse of the wave function and time's arrow are explained and non-locality and instantaneity of quantum interaction required. Extension of the hypothesis to six dimensions gives an 83.3% dark matter share of the universe.
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"abstract": "If space, time and mass-energy expand outward from the Big Bang along the\ntime axis equally in the (+) and (-) directions, then time is symmetric by\nWeyl\u0027s definition. In the Feynman-Stueckelberg Interpretation, antimatter is\nidentical to matter but moves backward in time. This paper argues this\ninterpretation is physically real, leading to the universe containing dark\nmatter with mass accumulations similar to ordinary matte. As time expands, in\nboth directions away from the origin, quantum uncertainty allows a brief,\ndecreasing leakage of mass between (+) and (-) universes. Matter leaking from\n(-) to (+) time moves forward in time, producing preponderance of matter in (+)\ntime. Antimatter leakage from (+) time to (-) time in the same way produces\nantimatter preponderance in the (-) time universe. The remaining opposite\npartner particles left by the leakage, (antimatter and matter respectively)\nproceeding outward in antitime and time respectively, after many annihilations\nalso increase the two preponderances in the two universes. The anti-universe\nshould be observable by gravitational lensing, predicting \"MACHOS\" of\napproximately stellar mass, and multiple micro-lensing of quasars.\nNon-existence of primordial antimatter of Z\u003e1, and a large variation in the\nquantities of dark matter associated with different individual galaxies are\npredicted. A symmetry is provided for Nodland and Ralston\u0027s observed maximum\naxis of rotation of polarization of galactic synchrotron radiation. A new\nsolution of the horizon problem at times close to the origin is indicated.\nCollapse of the wave function and time\u0027s arrow are explained and non-locality\nand instantaneity of quantum interaction required. Extension of the hypothesis\nto six dimensions gives an 83.3% dark matter share of the universe.",
"arxiv_id": "physics/9812021",
"authors": [
"Trevor Pitts"
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"title": "Dark Matter, Antimatter and Time-Symmetry",
"url": "https://arxiv.org/abs/physics/9812021"
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