Optimal Moments for Velocity Fields Analysis
Abstract
We describe a new method of overcoming problems inherent in peculiar velocity surveys by using data compression as a filter with which to separate large-scale, linear flows from small-scale noise that biases the results systematically. We demonstrate the effectiveness of our method using realistic catalogs of galaxy velocities drawn from N--body simulations. Our tests show that a likelihood analysis of simulated catalogs that uses all of the information contained in the peculiar velocities results in a bias in the estimation of the power spectrum shape parameter and amplitude , and that our method of analysis effectively removes this bias. We expect that this new method will cause peculiar velocity surveys to re--emerge as a useful tool to determine cosmological parameters.
Cite
@article{arxiv.astro-ph/0312514,
title = {Optimal Moments for Velocity Fields Analysis},
author = {Hume A Feldman and Richard Watkins and Adrian Melott and Will Chambers},
journal= {arXiv preprint arXiv:astro-ph/0312514},
year = {2007}
}