General relativity and Weyl geometry

We show that the general theory of relativity can be formulated in the language of Weyl geometry. We develop the concept of Weyl frames and point out that the new mathematical formalism may lead to different pictures of the same gravitational phenomena. We show that in an arbitrary Weyl frame genera...

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Veröffentlicht in:	Classical and quantum gravity 2012-08, Vol.29 (15), p.155015-18
Hauptverfasser:	Romero, C, Fonseca-Neto, J B, Pucheu, M L
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Sprache:	eng
Schlagworte:	Analogies Brans-Dicke Conformal transformations Construction Exact sciences and technology Formalism Frames General relativity General relativity and gravitation Invariants Mathematical analysis Physics Quantum gravity Relativity Weyl geometry
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container_title	Classical and quantum gravity
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creator	Romero, C Fonseca-Neto, J B Pucheu, M L
description	We show that the general theory of relativity can be formulated in the language of Weyl geometry. We develop the concept of Weyl frames and point out that the new mathematical formalism may lead to different pictures of the same gravitational phenomena. We show that in an arbitrary Weyl frame general relativity, which takes the form of a scalar-tensor gravitational theory, is invariant with respect to Weyl transformations. A key point in the development of the formalism is to build an action that is manifestly invariant with respect to Weyl transformations. When this action is expressed in terms of Riemannian geometry we find that the theory has some similarities with Brans-Dicke gravitational theory. In this scenario, the gravitational field is not described by the metric tensor only, but by a combination of both the metric and a geometrical scalar field. We illustrate this point by examining how distinct geometrical and physical pictures of the same phenomena may arise in different frames. To give an example, we discuss the gravitational spectral shift as viewed in a general Weyl frame. We further explore the analogy of general relativity with scalar-tensor theories and show how a known Brans-Dicke vacuum solution may appear as a solution of general relativity theory when reinterpreted in a particular Weyl frame. Finally, we show that the so-called WIST gravity theories are mathematically equivalent to Brans-Dicke theory when viewed in a particular frame.
doi_str_mv	10.1088/0264-9381/29/15/155015
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To give an example, we discuss the gravitational spectral shift as viewed in a general Weyl frame. We further explore the analogy of general relativity with scalar-tensor theories and show how a known Brans-Dicke vacuum solution may appear as a solution of general relativity theory when reinterpreted in a particular Weyl frame. 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Quantum Grav</addtitle><description>We show that the general theory of relativity can be formulated in the language of Weyl geometry. We develop the concept of Weyl frames and point out that the new mathematical formalism may lead to different pictures of the same gravitational phenomena. We show that in an arbitrary Weyl frame general relativity, which takes the form of a scalar-tensor gravitational theory, is invariant with respect to Weyl transformations. A key point in the development of the formalism is to build an action that is manifestly invariant with respect to Weyl transformations. When this action is expressed in terms of Riemannian geometry we find that the theory has some similarities with Brans-Dicke gravitational theory. In this scenario, the gravitational field is not described by the metric tensor only, but by a combination of both the metric and a geometrical scalar field. 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subjects	Analogies Brans-Dicke Conformal transformations Construction Exact sciences and technology Formalism Frames General relativity General relativity and gravitation Invariants Mathematical analysis Physics Quantum gravity Relativity Weyl geometry
title	General relativity and Weyl geometry
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