Geometrodynamical formulation of two-dimensional dilaton gravity
- 12 March 1999
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 59 (8) , 084011
- https://doi.org/10.1103/physrevd.59.084011
Abstract
Two-dimensional matterless dilaton gravity with an arbitrary dilatonic potential can be discussed in a unitary way, both in the Lagrangian and canonical frameworks, by introducing suitable field redefinitions. The new fields are directly related to the original spacetime geometry and in the canonical picture they generalize the well-known geometrodynamical variables used in the discussion of the Schwarzschild black hole. So the model can be quantized using the techniques developed for the latter case. The resulting quantum theory exhibits the Birkhoff theorem at the quantum level.Keywords
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This publication has 30 references indexed in Scilit:
- Generalized two-dimensional dilaton gravity with matter fieldsClassical and Quantum Gravity, 1998
- Two-dimensional dilaton gravity coupled to massless spinorsClassical and Quantum Gravity, 1998
- Solvable model of two-dimensional dilaton gravity coupled to a massless scalar fieldPhysical Review D, 1998
- Non-perturbative path integral of 2d dilaton gravity and two-loop effects from scalar matterNuclear Physics B, 1998
- Two-dimensional reduced theory and general static solution for uncharged black p-branesPhysics Letters B, 1997
- Exact path integral quantization of generic 2D dilaton gravityNuclear Physics B, 1997
- Dirac constraint quantization of a dilatonic model of gravitational collapsePhysical Review D, 1997
- Functional Schrödinger and BRST quantization of (1+1)-dimensional gravityPhysical Review D, 1996
- Physical States in Matter-Coupled Dilaton GravityAnnals of Physics, 1996
- Exact Dirac quantization of all 2D dilaton gravity theoriesPhysics Letters B, 1994