Metric-affine cosmological models and the inverse problem of the calculus of variations. Part II: Variational bootstrapping of the $\Lambda$CDM model
| Autor: | Ducobu, Ludovic, Voicu, Nicoleta |
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| Rok vydání: | 2024 |
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| Druh dokumentu: | Working Paper |
| Popis: | The method of variational bootstrapping, based on canonical variational completion, allows one to construct a Lagrangian for a physical theory depending on two sets of field variables, starting from a guess of the field equations for only one such set. This setup is particularly appealing for the construction of modified theories of gravity since one can take lessons from GR for the "educated guess" of the metric field equations; the field equations for the other fields are then fixed by the obtained Lagrangian (up to terms completely independent from the metric tensor). In the present paper, we explore the applications of variational bootstrapping in the context of metric-affine theories of gravity. We find those metric-affine models which are, in a variational sense, closest to the $\Lambda$CDM model of cosmology. The method then allows to find "corrected" metric equations and to "bootstrap" the connection field equations. The Lagrangians obtained via this method, though imposing some restricting criteria, encompass a wide variety of metric-affine models. In particular, they allow for quadratic metric-affine theories only if these avoid non-linear terms in the curvature tensor. Comment: 15 pages + 1 page references + 3 pages appendix, 0 figure |
| Databáze: | arXiv |
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