F. Dahia scite author profile

We discuss the question of whether or not a general Weyl structure is a suitable mathematical model of space-time. This is an issue that has been in debate since Weyl formulated his unified field theory for the first time. We do not present the discussion from the point of view of a particular unification theory, but instead from a more general standpoint, in which the viability of such a structure as a model of space-time is investigated. Our starting point is the well known axiomatic approach to space-time given by Elhers, Pirani and Schild (EPS). In this framework, we carry out an exhaustive analysis of what is required for a consistent definition for proper time and show that such a definition leads to the prediction of the so-called "second clock effect". We take the view that if, based on experience, we were to reject space-time models predicting this effect, this could be incorporated as the last axiom in the EPS approach. Finally, we provide a proof that, in this case, we are led to a Weyl integrable space-time (WIST) as the most general structure that would be suitable to model space-time.

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Warped product spaces and geodesic motion in the neighborhood of branes

Dahia

Silva

Romero

et al. 2007

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We study the classical geodesic motions of nonzero rest mass test particles and photons in five-dimensional warped product spaces. We show that it is possible to obtain a general picture of these motions using the natural decoupling that occurs in such spaces between the motions in the fifth dimension and the motion in the hypersurfaces. This splitting allows the use of phase space analysis in order to investigate the possible confinement of particles and photons to hypersurfaces in five-dimensional warped product spaces. Using such an analysis, we find a novel form of quasiconfinement which is oscillatory and neutrally stable. We also find that this class of warped product spaces locally satisfy the Z2 symmetry by default. The importance of such a confinement is that it is purely due to the classical gravitational effects, without requiring the presence of brane-type confinement mechanisms.

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Embeddings in space–times sourced by scalar fields

Anderson

Dahia

Lidsey

et al. 2003

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The embedding of space–times in five dimensions with nondegenerate Ricci tensor

Dahia

Romero

2002

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We discuss and prove a theorem which asserts that any n-dimensional semiRiemannian manifold can be locally embedded in a (n+1)-dimensional space with a non-degenerate Ricci tensor which is equal, up to a local analytic diffeomorphism, to the Ricci tensor of an arbitrary specified space. This may be regarded as a further extension of the Campbell-Magaard theorem.We highlight the significance of embedding theorems of increasing degrees of generality in the context of higher dimensional spacetimes theories and illustrate the new theorem by establishing the embedding of a general class of Ricci-flat spacetimes.

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F. Dahia

The embedding of the space–time in five dimensions: An extension of the Campbell–Magaard theorem

A Note on the Problem of Proper Time in Weyl Space–Time

Warped product spaces and geodesic motion in the neighborhood of branes

Embeddings in space–times sourced by scalar fields

The embedding of space–times in five dimensions with nondegenerate Ricci tensor

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