Journal ArticleDOI
Unified geometric theory of gravity and supergravity
S. W. MacDowell,F. Mansouri +1 more
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In this article, a unified geometric formulation of gravitation and supergravity is presented, which is constructed out of the components of the curvature tensor for bundle spaces with four-dimensional Lorentz base manifold and structure groups Sp(4) for gravity and OSp(1, 4) for supergravity.Abstract:
A unified geometric formulation of gravitation and supergravity is presented. The action for these theories is constructed out of the components of the curvature tensor for bundle spaces with four-dimensional Lorentz base manifold and structure groups Sp(4) for gravity and OSp(1,4) for supergravity. The requirement of invariance under reflections, local Lorentz transformations, and general coordinate transformations uniquely determines the action and ensures the existence of local supersymmetry in supergravity.read more
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Superfield description of a self-dual supergravity in the context of MacDowell Mansouri theory
TL;DR: In this paper, a superfield description of the self-dual supergravity in the context of Ashtekar theory is investigated, in which the supersymmetric field strength in the Lagrangian is properly combined.
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Tractors and Twistors from conformal Cartan geometry: a gauge theoretic approach I. Tractors
Jérémy Attard,Jordan François +1 more
TL;DR: In this paper, the dressing field method of gauge symmetry reduction is applied to tractors and twistors and their associated connections as gauge field of a non-standard kind as far as Weyl rescaling symmetry is concerned.
Journal ArticleDOI
Gravity as a gauge theory with Cartan connection
TL;DR: In this article, a gauge formulation of gravity, based on the notion of the connection of Cartan, is given, and the BRS invariance of the theory, supplemented by Faddeev-Popov and gauge fixing terms, is analyzed in some detail.
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Noncommutative Gauge Theory and Gravity in Three Dimensions
Athanasios Chatzistavrakidis,Larisa Jonke,Danijel Jurman,George Manolakos,P. Manousselis,George Zoupanos,George Zoupanos +6 more
TL;DR: In this paper, the transformation rules for the dreibein and spin connection can be described in terms of non-commutative gauge theory in 3D gravity in the framework of noncomputable geometry.