Bouncing evolution in a model of loop quantum gravity
Abstract
To understand the dynamics of loop quantum gravity, the deparametrized model of gravity coupled to a scalar field is studied in a simple case, where the graph underlying the spin network basis is one loop based at a single vertex. The Hamiltonian operator is chosen to be graph-preserving, and the matrix elements of are explicitly worked out in a suitable basis. The non-trivial Euclidean part of is studied in details. It turns out that by choosing a specific symmetrization of , the dynamics driven by the Hamiltonian gives a picture of bouncing evolution. Our result in the model of full loop quantum gravity gives a significant echo of the well-known quantum bounce in the symmetry-reduced model of loop quantum cosmology, which indicates a closed relation between singularity resolution and quantum geometry.
Cite
@article{arxiv.1904.07046,
title = {Bouncing evolution in a model of loop quantum gravity},
author = {Cong Zhang and Jerzy Lewandowski and Haida Li and Yongge Ma},
journal= {arXiv preprint arXiv:1904.07046},
year = {2019}
}
Comments
27 pages, 7 figures