Counting a black hole in Lorentzian product triangulations
Publication date
2005-06-06
Authors
Dittrich, D.
Loll, R.
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DOI
Document Type
Preprint
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Abstract
We take a step toward a nonperturbative gravitational path integral for blackhole
geometries by deriving an expression for the expansion rate of null geodesic
congruences in the approach of causal dynamical triangulations. We propose to
use the integrated expansion rate in building a quantum horizon finder in the sum
over spacetime geometries. It takes the form of a counting formula for various
types of discrete building blocks which differ in how they focus and defocus light
rays. In the course of the derivation, we introduce the concept of a Lorentzian
dynamical triangulation of product type, whose applicability goes beyond that of
describing black-hole configurations.