Measuring Space-Time Geometry over the Ages
Abstract
Theorists are often told to express things in the "observational plane". One can do this for space-time geometry, considering "visual" observations of matter in our universe by a single observer over time, with no assumptions about isometries, initial conditions, nor any particular relation between matter and geometry, such as Einstein's equations. Using observables as coordinates naturally leads to a parametrization of space-time geometry in terms of other observables, which in turn prescribes an observational program to measure the geometry. Under the assumption of vorticity-free matter flow we describe this observational program, which includes measurements of gravitational lensing, proper motion, and redshift drift. Only 15% of the curvature information can be extracted without long time baseline observations, and this increases to 35% with observations that will take decades. The rest would likely require centuries of observations. The formalism developed is exact, non-perturbative, and more general than the usual cosmological analysis.
Cite
@article{arxiv.1205.4201,
title = {Measuring Space-Time Geometry over the Ages},
author = {Albert Stebbins},
journal= {arXiv preprint arXiv:1205.4201},
year = {2012}
}
Comments
Originally written for the Gravity Research Foundation 2012 Awards for Essays on Gravitation and received Honorable Mention