Title:	On Propagation in Loop Quantum Gravity
Authors:	Thiemann, Thomas Varadarajan, Madhavan
Keywords:	canonical quantum gravity Wheeler DeWitt equation propagation
Issue Date:	23-Nov-2022
Publisher:	MDPI
Citation:	Universe, 2022, Vol. 8, p615
Abstract:	A rigorous implementation of the Wheeler–Dewitt equations was derived in the context of Loop Quantum Gravity (LQG) and was coined Quantum Spin Dynamics (QSD). The Hamiltonian constraint of QSD was criticised as being too local and to prevent "propagation" in canonical LQG. That criticism was based on an algorithm developed for QSD for generating solutions to the Wheeler–DeWitt equations. The fine details of that algorithm could not be worked out because the QSD Hamiltonian constraint makes crucial use of the volume operator, which cannot be diagonalised analytically. In this paper, we consider the U(1)3 model for Euclidean vacuum LQG which consists of replacing the structure group SU(2) by U(1)3 and otherwise keeps all properties of the SU(2) theory intact. This enables analytical calculations and the fine details of the algorithm ingto be worked out. By considering one of the simplest possible non-trivial classes of solutions based on very small graphs, we show that (1) an infinite number of solutions ingexist which are (2) generically not normalisable with respect to the inner product on the space of spatially diffeomorphism invariant distributions and (3) generically display propagation. Due to the closeness of the U(1)3 model to Euclidean LQG, it is extremely likely that all three properties hold also in the SU(2) case and even more so in physical Lorentzian LQG. These arguments can in principle be made water tight using modern numerical (e.g., ML or QC) methods combined with the techniques developed in this paper which we reserve for future work.
Description:	Open Access
URI:	http://hdl.handle.net/2289/8022
ISSN:	2218-1997
Alternative Location:	https://arxiv.org/abs/2112.03992 https://doi.org/10.3390/universe8120615 https://ui.adsabs.harvard.edu/abs/2022Univ....8..615T/abstract
Copyright:	2022 The Author(s)
Appears in Collections:	Research Papers (TP)

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