English

Angular Correlation Function from sample covariance with BOSS and eBOSS LRG

Cosmology and Nongalactic Astrophysics 2024-05-08 v2

Abstract

The Baryon Acoustic Oscillations (BAO) are one of the most used probes to understand the accelerated expansion of the Universe. Traditional methods rely on fiducial model information within their statistical analysis, which may be a problem when constraining different families of models. This work aims to provide a method that constrains θBAO\theta_{BAO} through a model-independent approach using the covariance matrix from the galaxy sample from thin redshift bins, later validated with a mock sample covariance matrix. We used widths of δz=0.002\delta z = 0.002 separation for all samples as the basis for a sample covariance matrix weighted by the statistical importance of the redshift bin. Each sample belongs to the Sloan Digital Sky Survey: BOSS1, BOSS2, and eBOSS, with effective redshift zeffz_{eff}: 0.35, 0.51, 0.71, and different numbers of bins with 50, 100, and 200. To get θBAO\theta_{BAO}, we correct the angular separation from the polynomial fit (θfit\theta_{fit}) by comparing each bin correlation function with the correlation function of the whole set, a parameter named α~\tilde{\alpha}. We also tested such correction by choosing the bin at zeffz_{eff} and found that for eBOSS θBAO\theta_{BAO} is in 1σ1 \sigma agreement with the Planck 18 model. Finally, we found that the sample covariances are noisy compared to the mocks for lower zz samples, something expected due to nonlinear effects. Such noise impact can be seen in the parameter constraints but does not affect the eBOSS covariance sample. It is shown that mocks' results do tend to its chosen fiducial cosmology θBAO\theta_{BAO}. BOSS1 and BOSS2 showed agreement with Planck 18 and an agreement with Pantheon + SH0H_0ES when α~\tilde{\alpha} is based on the bin z=zeffz=z_{eff}.

Keywords

Cite

@article{arxiv.2309.16018,
  title  = {Angular Correlation Function from sample covariance with BOSS and eBOSS LRG},
  author = {Paula S. Ferreira and Ribamar R. R. Reis},
  journal= {arXiv preprint arXiv:2309.16018},
  year   = {2024}
}

Comments

18 pages Changed figures and included comparison between old and new method with the mocks

R2 v1 2026-06-28T12:34:20.328Z