English

A Guide to Designing Future Ground-based CMB Experiments

Cosmology and Nongalactic Astrophysics 2014-07-11 v1 High Energy Physics - Phenomenology

Abstract

In this follow-up work to the High Energy Physics Community Summer Study 2013 (HEP CSS 2013, a.k.a. Snowmass), we explore the scientific capabilities of a future Stage-IV Cosmic Microwave Background polarization experiment (CMB-S4) under various assumptions on detector count, resolution, and sky coverage. We use the Fisher matrix technique to calculate the expected uncertainties in cosmological parameters in νΛ\nu \LambdaCDM that are especially relevant to the physics of fundamental interactions, including neutrino masses, effective number of relativistic species, dark-energy equation of state, dark-matter annihilation, and inflationary parameters. To further chart the landscape of future cosmology probes, we include forecasted results from the Baryon Acoustic Oscillation (BAO) signal as measured by DESI to constrain parameters that would benefit from low redshift information. We find the following best 1-sigma constraints: σ\sigma constraints: σ(Mν)=15\sigma(M_{\nu})= 15 meV, σ(Neff)=0.0156\sigma(N_{\rm eff})= 0.0156, Dark energy Figure of Merit = 303, σ(pann)=0.00588×3×1026\sigma(p_{ann})= 0.00588\times3\times10^{-26} cm3^3/s/GeV, σ(ΩK)=0.00074\sigma(\Omega_K)= 0.00074, σ(ns)=0.00110\sigma(n_s)= 0.00110, σ(αs)=0.00145\sigma(\alpha_s)= 0.00145, and σ(r)=0.00009\sigma(r)= 0.00009. We also detail the dependences of the parameter constraints on detector count, resolution, and sky coverage.

Keywords

Cite

@article{arxiv.1402.4108,
  title  = {A Guide to Designing Future Ground-based CMB Experiments},
  author = {W. L. K. Wu and J. Errard and C. Dvorkin and C. L. Kuo and A. T. Lee and P. McDonald and A. Slosar and O. Zahn},
  journal= {arXiv preprint arXiv:1402.4108},
  year   = {2014}
}

Comments

24 pages, 13 figures

R2 v1 2026-06-22T03:09:57.847Z