dorsal/arxiv
View SchemaLittle Black Holes as Dark Matter Candidates with Feasible Cosmic and Terrestrial Interactions
| Authors | Mario Rabinowitz |
|---|---|
| Categories | |
| ArXiv ID | physics/0503079 |
| URL | https://arxiv.org/abs/physics/0503079 |
| Journal | Progress in Dark Matter Research. Editor J. Blain; NovaScience Publishers, Inc. N.Y., (2005), pp. 1 - 66 |
Abstract
Little black holes (LBH) contribute to the accelerated expansion of the Universe, and interact with stars, neutron stars, and planets. A range of proposals are reviewed in which LBH are considered to be a component of dark matter/dark energy. A LBH is a candidate for the 1908 devastation of Tungus Siberia, as important LBH interactions were overlooked. LBH passing through neutron star pulsars are capable of causing a change in. Energy input due to the passage of LBH through the earth, sun, and neutron stars is examined to determine if they could initiate tremors and quakes in such bodies. In encounters with the earth.s atmosphere, LBH can manifest themselves as the core energy source of ball lightning (BL). Relating the LBH incidence rate on earth to BL occurrence has the potential of shedding light on the distribution of LBH in the universe, and their velocities relative to the earth. Most BL features can be explained by a testable LBH model. The total number of degrees of freedom of a d-dimensional body in n-space is derived so that equipartition of energy may be applied in the early universe. Blackbody and Hawking radiation are generalized to n-space. The entropy of LBH and of the universe are examined. The largest possible attractive force, repulsive force, and luminosity in nature are considered in the context of LBH. A question is raised as to whether the Planck scale is truly fundamental. The gravitational fine structure constant is re-examined.
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"abstract": "Little black holes (LBH) contribute to the accelerated expansion of the\nUniverse, and interact with stars, neutron stars, and planets. A range of\nproposals are reviewed in which LBH are considered to be a component of dark\nmatter/dark energy. A LBH is a candidate for the 1908 devastation of Tungus\nSiberia, as important LBH interactions were overlooked. LBH passing through\nneutron star pulsars are capable of causing a change in. Energy input due to\nthe passage of LBH through the earth, sun, and neutron stars is examined to\ndetermine if they could initiate tremors and quakes in such bodies. In\nencounters with the earth.s atmosphere, LBH can manifest themselves as the core\nenergy source of ball lightning (BL). Relating the LBH incidence rate on earth\nto BL occurrence has the potential of shedding light on the distribution of LBH\nin the universe, and their velocities relative to the earth. Most BL features\ncan be explained by a testable LBH model. The total number of degrees of\nfreedom of a d-dimensional body in n-space is derived so that equipartition of\nenergy may be applied in the early universe. Blackbody and Hawking radiation\nare generalized to n-space. The entropy of LBH and of the universe are\nexamined. The largest possible attractive force, repulsive force, and\nluminosity in nature are considered in the context of LBH. A question is raised\nas to whether the Planck scale is truly fundamental. The gravitational fine\nstructure constant is re-examined.",
"arxiv_id": "physics/0503079",
"authors": [
"Mario Rabinowitz"
],
"categories": [
"physics.gen-ph"
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"journal_ref": "Progress in Dark Matter Research. Editor J. Blain; NovaScience\n Publishers, Inc. N.Y., (2005), pp. 1 - 66",
"title": "Little Black Holes as Dark Matter Candidates with Feasible Cosmic and Terrestrial Interactions",
"url": "https://arxiv.org/abs/physics/0503079"
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