The microlocal spectrum condition, initial value formulations and background independence
Abstract
We analyze the implications of the microlocal spectrum/Hadamard condition for states in a (linear) quantum field theory on a globally hyperbolic spacetime in the context of a (distributional) initial value formulation. More specifically, we work in a -split and give a bound, independent of the spacetime metric, on the wave front sets of the initial data for a quasi-free Hadamard state in the quantum field theory defined by a normally hyperbolic differential operator acting in a vector bundle . This aims at a possible way to apply the concept of Hadamard states within approaches to quantum field theory/gravity relying on a Hamiltonian formulation, potentially without a (classical) background metric .
Cite
@article{arxiv.1312.4173,
title = {The microlocal spectrum condition, initial value formulations and background independence},
author = {Alexander Stottmeister and Thomas Thiemann},
journal= {arXiv preprint arXiv:1312.4173},
year = {2015}
}
Comments
some typos corrected, extended discussion