Emergent 4-dimensional linearized gravity from spin foam model
Abstract
Spin Foam Models (SFMs) are covariant formulations of Loop Quantum Gravity (LQG) in 4 dimensions. This work studies the perturbations of SFMs on a flat background. It demonstrates for the first time that smooth curved spacetime geometries satisfying Einstein equation can emerge from discrete SFMs under an appropriate low energy limit, which corresponds to a semiclassical continuum limit of SFMs. In particular, we show that the low energy excitations of SFMs on a flat background give all smooth solutions of linearized Einstein equations (spin-2 gravitons). This indicates that at the linearized level, classical Einstein gravity is indeed the low energy effective theory from SFMs. Thus our result heightens the confidence that covariant LQG is a consistent theory of quantum gravity. As a key technical tool, a regularization/deformation of the SFM is employed in the derivation. The deformation parameter becomes a coupling constant of a higher curvature correction term to Einstein gravity from SFM.
Cite
@article{arxiv.1812.02110,
title = {Emergent 4-dimensional linearized gravity from spin foam model},
author = {Muxin Han and Zichang Huang and Antonia Zipfel},
journal= {arXiv preprint arXiv:1812.02110},
year = {2019}
}
Comments
15+5 pages, 4 figures. V2 improves the presentation, and expands the discussion on the geometrical correspondence of spinfoam large-j critical points