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This article is cited in 71 scientific papers (total in 71 papers)
Relational observables in gravity: a review
Johannes Tambornino Laboratoire de Physique, ENS Lyon, CNRS-UMR 5672, 46 Allée d'Italie, Lyon 69007, France
Abstract:
We present an overview on relational observables in gravity mainly from a loop quantum gravity perspective. The gauge group of general relativity is the diffeomorphism group of the underlying manifold. Consequently, general relativity is a totally constrained theory with vanishing canonical Hamiltonian. This fact, often referred to as the problem of time, provides the main conceptual difficulty towards the construction of gauge-invariant local observables. Nevertheless, within the framework of complete observables, that encode relations between dynamical fields, progress has been made during the last 20 years. Although analytic control over observables for full gravity is still lacking, perturbative calculations have been performed and within de-parameterizable toy models it was possible for the first time to construct a full set of gauge invariant observables for a background independent field theory. We review these developments and comment on their implications for quantum gravity.
Keywords:
Dirac observables, quantum gravity, problem of time, gauge invariance.
Received: August 31, 2011; in final form March 14, 2012; Published online March 28, 2012
Citation:
Johannes Tambornino, “Relational observables in gravity: a review”, SIGMA, 8 (2012), 017, 30 pp.
Linking options:
https://www.mathnet.ru/eng/sigma694 https://www.mathnet.ru/eng/sigma/v8/p17
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Abstract page: | 216 | Full-text PDF : | 47 | References: | 53 |
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