Functional Schrödinger and BRST quantization of (1+1)-dimensional gravity
- 15 November 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 54 (10) , 6213-6225
- https://doi.org/10.1103/physrevd.54.6213
Abstract
We discuss the quantization of pure string-inspired dilaton gravity in 1+1 dimensions, and of the same theory coupled to scalar matter. We perform the quantization using the functional Schrödinger and BRST formalisms. We find, both for pure gravity and the matter-coupled theory, that the two quantization procedures give inequivalent "physical" results.Keywords
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This publication has 20 references indexed in Scilit:
- Physical States in Matter-Coupled Dilaton GravityAnnals of Physics, 1996
- Dirac quantization of gravity-Yang-Mills systems in 1+1 dimensionsPhysical Review D, 1994
- Quantum states of string-inspired lineal gravityPhysical Review D, 1994
- On induced gravity in 2d topological theoriesNuclear Physics B, 1994
- Exact Dirac quantization of all 2D dilaton gravity theoriesPhysics Letters B, 1994
- Gauge-invariant formulations of lineal gravitiesPhysical Review Letters, 1992
- Remarks on the BRST cohomology for cM > 1 matter coupled to “Liouville gravity”Physics Letters B, 1992
- BRST analysis of physical states for 2D gravity coupled toc≦1 matterCommunications in Mathematical Physics, 1992
- Evanescent black holesPhysical Review D, 1992
- 2D gravity with c=1 matterPhysics Letters B, 1991