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| Formato: | Preprint |
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2024
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| Acceso en línea: | https://arxiv.org/abs/2404.17798 |
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| _version_ | 1866913666089091072 |
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| author | Gupta, Patrick Das |
| author_facet | Gupta, Patrick Das |
| contents | The space-time geometry in any inertial frame is described by the line-element $ds^2= η_{μν} dx^μdx^ν$. Now, not only the Minkowski metric $η_{μν} $ is invariant under proper Lorentz transformations, the totally antisymmetric Levi-Civita tensor $e_{μναβ} $ too is. In general relativity (GR), $η_{μν} $ of the flat space-time gets generalized to a dynamical, space-time dependent metric tensor $ g_{μν} $ that characterizes a curved space-time geometry. In the present study, it is put forward that the flat space-time Levi-Civita tensor gets elevated to a dynamical four-form field $\tilde {w} $ in curved space-time manifolds, i.e. $e_{μναβ} \rightarrow w_{μναβ} (x) = ϕ(x) \ e_{μναβ} $, so that $\tilde {w} = {1\over {4!}} \ w_{μνρσ} \ \tilde{d} x^μ\wedge \tilde{d} x^ν\wedge \tilde{d} x^ρ\wedge \tilde{d} x^σ$. It is shown that this geometrodynamical four-form field extends GR by leading naturally to a torsion in the theory as well as to a Chern-Simons gravity. It is demonstrated that the scalar-density $ϕ(x)$ associated with $\tilde {w} $ may be used to construct a generalized exterior derivative that converts a p-form density to a (p+1)-form density of identical weight.
It is argued that the scalar-density $ϕ(x)$ associated with $\tilde {w}$ corresponds to an axion-like pseudo-scalar field in the Minkowski space-time, and that it can also masquerade as dark matter. Thereafter, we provide a simple semi-classical analysis in which a self-gravitating Bose-Einstein condensate of such ultra-light pseudo-scalars leads to the formation of a supermassive black hole. A brief analysis of propagation of weak gravitational waves in the presence of $\tilde{w} $ is also considered in this article. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2404_17798 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Torsion and Chern-Simons gravity in 4D space-times from a Geometrodynamical four-form Gupta, Patrick Das General Relativity and Quantum Cosmology The space-time geometry in any inertial frame is described by the line-element $ds^2= η_{μν} dx^μdx^ν$. Now, not only the Minkowski metric $η_{μν} $ is invariant under proper Lorentz transformations, the totally antisymmetric Levi-Civita tensor $e_{μναβ} $ too is. In general relativity (GR), $η_{μν} $ of the flat space-time gets generalized to a dynamical, space-time dependent metric tensor $ g_{μν} $ that characterizes a curved space-time geometry. In the present study, it is put forward that the flat space-time Levi-Civita tensor gets elevated to a dynamical four-form field $\tilde {w} $ in curved space-time manifolds, i.e. $e_{μναβ} \rightarrow w_{μναβ} (x) = ϕ(x) \ e_{μναβ} $, so that $\tilde {w} = {1\over {4!}} \ w_{μνρσ} \ \tilde{d} x^μ\wedge \tilde{d} x^ν\wedge \tilde{d} x^ρ\wedge \tilde{d} x^σ$. It is shown that this geometrodynamical four-form field extends GR by leading naturally to a torsion in the theory as well as to a Chern-Simons gravity. It is demonstrated that the scalar-density $ϕ(x)$ associated with $\tilde {w} $ may be used to construct a generalized exterior derivative that converts a p-form density to a (p+1)-form density of identical weight. It is argued that the scalar-density $ϕ(x)$ associated with $\tilde {w}$ corresponds to an axion-like pseudo-scalar field in the Minkowski space-time, and that it can also masquerade as dark matter. Thereafter, we provide a simple semi-classical analysis in which a self-gravitating Bose-Einstein condensate of such ultra-light pseudo-scalars leads to the formation of a supermassive black hole. A brief analysis of propagation of weak gravitational waves in the presence of $\tilde{w} $ is also considered in this article. |
| title | Torsion and Chern-Simons gravity in 4D space-times from a Geometrodynamical four-form |
| topic | General Relativity and Quantum Cosmology |
| url | https://arxiv.org/abs/2404.17798 |