First-Order Quantum Correction in Coherent State Expectation Value of Loop-Quantum-Gravity Hamiltonian

Abstract

Given the non-graph-changing Hamiltonian H[N] in Loop Quantum Gravity (LQG), H[N], the coherent state expectation value of H[N], admits an semiclassical expansion in 2 p. In this paper, as presenting the detailed derivations of our previous work arXiv:2012.14242, we explicitly compute the expansion of H[N] to the linear order in 2 p on the cubic graph with respect to the coherent state peaked at the homogeneous and isotropic data of cosmology. In our computation, a powerful algorithm is developed, supported by rigorous proofs and several theorems, to overcome the complexity in the computation of H[N] . Particularly, some key innovations in our algorithm substantially reduce the complexity in computing the Lorentzian part of H[N]. Additionally, some quantum correction effects resulting from H[N] in cosmology are discussed at the end of this paper.