English

Frame dragging and Eulerian frames in General Relativity

Cosmology and Nongalactic Astrophysics 2014-03-27 v3 General Relativity and Quantum Cosmology

Abstract

The physical interpretation of cold dark matter perturbations is clarified by associating Bertschinger's Poisson gauge with a Eulerian/observer's frame of reference. We obtain such an association by using a Lagrangian approach to relativistic cosmological structure formation. Explicitly, we begin with the second-order solution of the Einstein equations in a synchronous/comoving coordinate system---which defines the Lagrangian frame, and transform it to a Poissonian coordinate system. The generating vector of this coordinate/gauge transformation is found to be the relativistic displacement field. The metric perturbations in the Poissonian coordinate system contain known results from standard/Eulerian Newtonian perturbation theory, but contain also purely relativistic corrections. On sub-horizon scales these relativistic corrections are dominated by the Newtonian bulk part. These corrections however set up non-linear constraints for the density and for the velocity which become important on scales close to the horizon. Furthermore, we report the occurence of a transverse component in the displacement field, and find that it induces a non-linear frame dragging as seen in the observer's frame, which is sub-dominant at late-times and sub-horizon scales. Finally, we find two other gauges which can be associated with a Eulerian frame. We argue that the Poisson gauge is to be preferred because it comes with the simplest physical interpretation.

Keywords

Cite

@article{arxiv.1307.1725,
  title  = {Frame dragging and Eulerian frames in General Relativity},
  author = {Cornelius Rampf},
  journal= {arXiv preprint arXiv:1307.1725},
  year   = {2014}
}

Comments

14 pages, results unchanged, extended discussion, matches published version

R2 v1 2026-06-22T00:46:27.777Z