English

A Fast and Accurate Algorithm for Computing Tensor CBR Anisotropy

Astrophysics 2014-10-13 v1

Abstract

Inflation gives rise to a nearly scale-invariant spectrum of tensor perturbations (gravitational waves), their contribution to the Cosmic Background Radiation (CBR) anisotropy depends upon the present cosmological parameters as well as inflationary parameters. The analysis of a sampling-variance-limited CBR map offers the most promising means of detecting tensor perturbations, but will require evaluation of the predicted multipole spectrum for a very large number of cosmological parameter sets. We present accurate polynomial formulae for computing the predicted variance of the multipole moments in terms of the cosmological parameters ΩΛ\Omega_\Lambda, Ω0h2\Omega_0h^2, ΩBh2\Omega_B h^2, NνN_{\nu}, and the power-law index nTn_T which are accurate to about 1\% for l50l\le 50 and to better than 3\% for 50<l10050< l \le 100 (as compared to the numerical results of a Boltzmann code).

Keywords

Cite

@article{arxiv.astro-ph/9512140,
  title  = {A Fast and Accurate Algorithm for Computing Tensor CBR Anisotropy},
  author = {Michael S. Turner and Yun Wang},
  journal= {arXiv preprint arXiv:astro-ph/9512140},
  year   = {2014}
}

Comments

LaTeX with psfig, 21 pages including 3 figures. The corresponding fortran program is available at http://fnas08.fnal.gov/. Submitted to Phys. Rev. D