Journal ArticleDOI
Gauge Free Quantization of the Linearized Equations of General Relativity
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This article is published in Physical Review D.The article was published on 1974-10-15. It has received 5 citations till now. The article focuses on the topics: Introduction to gauge theory & Four-force.read more
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Null-tetrad formulation of the Yang-Mills field equations
TL;DR: In this article, the Yang-Mills dynamical variables in the presence of gravitation are presented in terms of new variables by means of a null-tetrad and spin coefficient method.
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Electrodynamics in Terms of Functions Over the Group SU(2): II. Quantization
TL;DR: In this article, a quantization procedure for these equations is carried out in the Lorentz gauge, which involves two independent variables, corresponding to the number of degrees of freedom of the electromagnetic field in a Hilbert space with a positive-definite metric.
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The Hilbert space of quantum gravity
TL;DR: In this paper, the authors presented a new approach to the quantization of the gravitational field using the Hilbert space of the quantized system and defined the first-order states in terms of the representation of the Weyl tensor in the Newman-Penrose formulation.
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Solution of the basic problems of electrodynamics in the group-space formulation
TL;DR: In this paper, the question of whether there exists a complete alternate formulation of classical electrodynamics in terms of asingle scalar function is pursued, which may then lead to a new formulation of quantum electrodynamic systems.
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A new perspective on quantum gravity
Moshe Carmeli,Shimon Malin +1 more
TL;DR: In this paper, the authors present a new approach to quantum gravity whose basic idea is a confluence of four elements: 1) the possibility of working with manifolds on three different levels of abstraction, which are i) a general differentiable manifold; ii) an affmely connected manifold; iii) a manifold with a metric structure; and iv) Carmeli's SL(2, C) gauge theory formulation of General Relativity, which implies the possibility that the quantities that need to be quantized are spinor potential and/or fields, rather than the components of the