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      Barbero's Hamiltonian derived from a generalized Hilbert-Palatini action

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          Abstract

          Barbero recently suggested a modification of Ashtekar's choice of canonical variables for general relativity. Although leading to a more complicated Hamiltonian constraint this modified version, in which the configuration variable still is a connection, has the advantage of being real. In this article we derive Barbero's Hamiltonian formulation from an action, which can be considered as a generalization of the ordinary Hilbert-Palatini action.

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          New variables for classical and quantum gravity.

          (1986)
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            New Hamiltonian formulation of general relativity

            Abhay Ashtekar (1987)
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              Real Ashtekar Variables for Lorentzian Signature Space-times

              J. Barbero (1994)
              I suggest in this letter a new strategy to attack the problem of the reality conditions in the Ashtekar approach to classical and quantum general relativity. By writing a modified Hamiltonian constraint in the usual \(SO(3)\) Yang-Mills phase space I show that it is possible to describe space-times with Lorentzian signature without the introduction of complex variables. All the features of the Ashtekar formalism related to the geometrical nature of the new variables are retained; in particular, it is still possible, in principle, to use the loop variables approach in the passage to the quantum theory. The key issue in the new formulation is how to deal with the more complicated Hamiltonian constraint that must be used in order to avoid the introduction of complex fields.
              Article 0 comments Cited 113 times – based on 0 reviews
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                Author and article information

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                Publication date Created: 07 November 1995
                Article
                DOI: 10.1103/PhysRevD.53.5966
                ArXiV ID: gr-qc/9511026
                SO-VID: b6cc89e5-4d9c-4da4-af02-15ef8151292b
                History
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                Report No USITP-95-10
                Journal reference Phys.Rev.D53:5966-5969,1996
                Comments 6 pages
                Categories gr-qc

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