4 research outputs found
Spherical Solutions due to the Exterior Geometry of a Charged Weyl Black Hole
Firstly we derive peculiar spherical Weyl solutions, using a general
spherically symmetric metric due to a massive charged object with definite mass
and radius. Afterwards, we present new analytical solutions for relevant
cosmological terms, which appear in the metrics. Connecting the metrics to a
new geometric definition of a charged Black Hole, we numerically investigate
the effective potentials of the total dynamical system, considering massive and
massless test particles, moving on such Black Holes.Comment: 8 pages, 5 figure
Weyl-Invariant Extension of the Metric-Affine Gravity
Metric-affine geometry provides a nontrivial extension of the general relativity where the metric and connection are treated as the two independent fundamental quantities in constructing the spacetime (with nonvanishing torsion and nonmetricity). In this paper, we study the generic form of action in this formalism and then construct the Weyl-invariant version of this theory. It is shown that, in Weitzenböck space, the obtained Weyl-invariant action can cover the conformally invariant teleparallel action. Finally, the related field equations are obtained in the general case
Particle Creation with Excited- de Sitter Modes
Recently, we introduced exited- de Sitter modes to study the power spectrum which was finite in Krein space quantization and the trans- Plankian corrections due to the exited modes were non-linear\cite [1]. It was shown that the de Sitter limit of corrections reduces to what obtained via the several previous conventional methods, moreover, with such modes the space-time symmetry becomes manifest. In this paper, inspired by Krein method and using exited- de Sitter modes as the fundamental initial states during the inflation, we calculate particle creation in the spatially flat Robertson-Walker space-time. It is shown that in de Sitter and Minkowski space-time in the far past time limit, our results coincides to the standard results.The accepted manuscript in pdf format is listed with the files at the bottom of this page. The presentation of the authors' names and (or) special characters in the title of the manuscript may differ slightly between what is listed on this page and what is listed in the pdf file of the accepted manuscript; that in the pdf file of the accepted manuscript is what was submitted by the author