http://arxiv.org/abs/1707.09353
We present measurements of the $E$-mode polarization angular auto-power spectrum ($EE$) and temperature-$E$-mode cross-power spectrum ($TE$) of the cosmic microwave background (CMB) using 150 GHz data from three seasons of SPTpol observations. We now report the $EE$ and $TE$ power spectra over the spherical harmonic multipole range $50 < \ell \leq 8000$, and detect the first nine acoustic peaks in the $EE$ spectrum with high signal-to-noise. These measurements are the most sensitive to date of the $EE$ and $TE$ angular polarization power spectra at $\ell > 1050$ and $\ell > 1475$, respectively. The observations cover $500\, \rm{deg}^2$ of sky, a fivefold increase in area compared to previous SPTpol power spectrum releases, leading to more than a factor of two reduction in bandpower uncertainties. The additional sky coverage increases our sensitivity to the photon-diffusion damping tail of the CMB angular power spectra, which enables tighter constraints on $\Lambda CDM$ model extensions such as primordial helium content $Y_\rm{p}$ and effective number of relativistic species $N_\rm{eff}$. Furthermore, after masking all sources with unpolarized flux $>50$ mJy we place a 95% confidence upper limit on residual polarized point-source power of $D_\ell < 0.10 \mu{\rm K}^2$ at $\ell=3000$. This limit is a factor of four lower than the previous best upper limit, and suggests that the $EE$ damping tail is brighter than foregrounds to at least $\ell = 4100$ with modest source masking. Finally, we find cosmological parameter constraints consistent with those for $Planck$ temperature when fitting SPTpol data at $\ell < 1000$. However, including SPTpol data at $\ell > 1000$ results in a preference for a higher value of the expansion rate ($H_0 = 71.2 \pm 2.1\,\mbox{km}\,s^{-1}\mbox{Mpc}^{-1}$) and a lower value for present-day density fluctuations ($\sigma_8 = 0.77 \pm 0.02$). (Abridged).
J. Henning, J. Sayre, C. Reichardt, et. al.
Mon, 31 Jul 17
6/57
Comments: 31 pages, 13 figures, 6 tables. To be submitted to ApJ