The Gowdy cosmologies provide a suitable arena to further develop Loop
Quantum Cosmology, allowing the presence of inhomogeneities. For the particular
case of Gowdy spacetimes with the spatial topology of a three-torus and a
content of linearly polarized gravitational waves, we detail a hybrid quantum
theory in which we combine a loop quantization of the degrees of freedom that
parametrize the subfamily of homogeneous solutions, which represent Bianchi I
spacetimes, and a Fock quantization of the inhomogeneities. Two different
theories are constructed and compared, corresponding to two different schemes
for the quantization of the Bianchi I model within the {\sl improved dynamics}
formalism of Loop Quantum Cosmology. One of these schemes has been recently put
forward by Ashtekar and Wilson-Ewing. We address several issues including the
quantum resolution of the cosmological singularity, the structure of the
superselection sectors in the quantum system, or the construction of the
Hilbert space of physical states.Comment: 16 pages, version accepted for publication in Physical Review 

A. Ashtekar

C. Rovelli

G. A. Mena Marugán

L. J. Garay

M. Bojowald

M. Martín-Benito

T. Thiemann

English

arXiv

The Gowdy cosmologies provide a suitable arena to further develop loop quantum cosmology, allowing the presence of inhomogeneities. For the particular case of Gowdy spacetimes with the spatial topology of a three-torus and a content of linearly polarized gravitational waves, we detail a hybrid quantum theory in which we combine a loop quantization of the degrees of freedom that parametrize the subfamily of homogeneous solutions, which represent Bianchi I spacetimes, and a Fock quantization of the inhomogeneities. Two different theories are constructed and compared, corresponding to two different schemes for the quantization of the Bianchi I model within the improved dynamics formalism of loop quantum cosmology. One of these schemes has been recently put forward by Ashtekar and Wilson-Ewing. We address several issues, including the quantum resolution of the cosmological singularity, the structure of the superselection sectors in the quantum system, or the construction of the Hilbert space of physical states. © 2010 The American Physical Society.This work was supported by the Spanish MICINN under Project No. FIS2008-06078-C03-03 and the Consolider-Ingenio 2010 Program CPAN under Contract No. CSD2007-00042. M. M-B. is supported by CSIC and the European Social Fund under Grant No. I3PBPD2006Peer Reviewe

Garay, Luis Javier

Martín-Benito, Mercedes

Mena Marugán, Guillermo A.

Digital.CSIC

Inhomogeneous loop quantum cosmology: Hybrid quantization of the Gowdy model

© 2010 The American Physical Society.
The authors are grateful to D. Brizuela, D. Martín de Blas, H. Sahlmann, J. Olmedo, T. Pawlowski, E. Wilson-Ewing, and especially to J. M. Velhinho, for useful discussions. This work was supported by the Spanish MICINN under Project No. FIS2008-06078-C03-03 and the Consolider-Ingenio 2010 Program CPAN under Contract No. CSD2007-00042. M. M-B. is supported by CSIC and the European Social Fund under Grant No. I3PBPD2006.The Gowdy cosmologies provide a suitable arena to further develop loop quantum cosmology, allowing the presence of inhomogeneities. For the particular case of Gowdy spacetimes with the spatial topology of a three-torus and a content of linearly polarized gravitational waves, we detail a hybrid quantum theory in which we combine a loop quantization of the degrees of freedom that parametrize the subfamily of homogeneous solutions, which represent Bianchi I spacetimes, and a Fock quantization of the inhomogeneities. Two different theories are constructed and compared, corresponding to two different schemes for the quantization of the Bianchi I model within the improved dynamics formalism of loop quantum cosmology. One of these schemes has been recently put forward by Ashtekar and Wilson-Ewing. We address several issues, including the quantum resolution of the cosmological singularity, the structure of the superselection sectors in the quantum system, or the construction of the Hilbert space of physical states.Spanish MICINNConsolider-Ingenio 2010 Program CPANEuropean Social FundDepto. de Física TeóricaFac. de Ciencias FísicasTRUEpu

Inhomogeneous Loop Quantum Cosmology: Hybrid Quantization of the Gowdy Model

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