Power spectrum estimation from high-resolution maps by Gibbs sampling
摘要
We revisit a recently introduced power spectrum estimation technique based on Gibbs sampling, with the goal of applying it to the high-resolution WMAP data. In order to facilitate this analysis, a number of sophistications have to be introduced, each of which is discussed in detail. We have implemented two independent versions of the algorithm to cross-check the computer codes, and to verify that a particular solution to any given problem does not affect the scientific results. We then apply these programs to simulated data with known properties at intermediate (N_side = 128) and high (N_side = 512) resolutions, to study effects such as incomplete sky coverage and white vs. correlated noise. From these simulations we also establish the Markov chain correlation length as a function of signal-to-noise ratio, and give a few comments on the properties of the correlation matrices involved. Parallelization issues are also discussed, with emphasis on real-world limitations imposed by current super-computer facilities. The scientific results from the analysis of the first-year WMAP data are presented in a companion letter.
引用
@article{arxiv.astro-ph/0407028,
title = {Power spectrum estimation from high-resolution maps by Gibbs sampling},
author = {H. K. Eriksen and I. J. O'Dwyer and J. B. Jewell and B. D. Wandelt and D. L. Larson and K. M. Gorski and S. Levin and A. J. Banday and P. B. Lilje},
journal= {arXiv preprint arXiv:astro-ph/0407028},
year = {2009}
}
备注
15 pages, 11 figures, accepted for publication in ApJS