xAct implementation of the theory of cosmological perturbation in bianchi I spacetimes

Authors

Ivan Agullo, Louisiana State University
Javier Olmedo, Louisiana State University
Vijayakumar Sreenath, National Institute of Technology Karnataka

Document Type

Article

Publication Date

2-1-2020

Abstract

This paper presents a computational algorithm to derive the theory of linear gauge invariant perturbations on anisotropic cosmological spacetimes of the Bianchi I type. Our code is based on the tensor algebra packages xTensor and xPert, within the computational infrastructure of xAct written in Mathematica. The algorithm is based on a Hamiltonian, or phase space formulation, and it provides an efficient and transparent way of isolating the gauge invariant degrees of freedom in the perturbation fields and to obtain the Hamiltonian generating their dynamics. The restriction to Friedmann-Lemaitre-Robertson-Walker spacetimes is straightforward.

Publication Source (Journal or Book title)

Mathematics

Recommended Citation

Agullo, I., Olmedo, J., & Sreenath, V. (2020). xAct implementation of the theory of cosmological perturbation in bianchi I spacetimes. Mathematics, 8 (2) https://doi.org/10.3390/math8020290