A measurement of secondary cosmic microwave background anisotropies from the 2500-square-degree SPT-SZ survey

TL;DR

This paper presents highly precise measurements of secondary CMB anisotropies and background fluctuations from the SPT-SZ survey, providing new constraints on the tSZ and kSZ effects, as well as insights into reionization duration.

Contribution

The study offers the most precise angular power spectra measurements at high multipoles and frequencies, including new constraints on tSZ, kSZ, and their correlation, advancing understanding of secondary CMB anisotropies.

Findings

Measured tSZ power at 143 GHz as 4.08 μK^2

Detected positive kSZ power with 98.1% confidence

Constrained reionization duration to Δz < 5.4 at 95% CL

Abstract

We present measurements of secondary cosmic microwave background (CMB) anisotropies and cosmic infrared background (CIB) fluctuations using data from the South Pole Telescope (SPT) covering the complete 2540 sq.deg. SPT-SZ survey area. Data in the three SPT-SZ frequency bands centered at 95, 150, and 220 GHz, are used to produce six angular power spectra (three single-frequency auto-spectra and three cross-spectra) covering the multipole range 2000 < ell < 11000 (angular scales 5' > \theta > 1'). These are the most precise measurements of the angular power spectra at ell > 2500 at these frequencies. The main contributors to the power spectra at these angular scales and frequencies are the primary CMB, CIB, thermal and kinematic Sunyaev-Zel'dovich effects (tSZ and kSZ), and radio galaxies. We include a constraint on the tSZ power from a measurement of the tSZ bispectrum from 800 sq.deg. of the SPT-SZ survey. We measure the tSZ power at 143 GHz to be DtSZ = 4.08 +0.58 -0.67 \mu K^2 and the kSZ power to be DkSZ = 2.9 +- 1.3 \mu K^2. The data prefer positive kSZ power at 98.1% CL. We measure a correlation coefficient of \xi = 0.113 +0.057 -0.054 between sources of tSZ and CIB power, with \xi < 0 disfavored at a confidence level of 99.0%. The constraint on kSZ power can be interpreted as an upper limit on the duration of reionization. When the post-reionization homogeneous kSZ signal is accounted for, we find an upper limit on the duration \Delta z < 5.4 at 95% CL.