Constraints on $\mu$-distortion fluctuations and primordial non-Gaussianity from Planck data

TL;DR

This paper uses Planck data to map and constrain primordial $dcffe$-distortion fluctuations, setting upper limits on their amplitude and non-Gaussianity, thereby informing early Universe physics.

Contribution

It provides the first all-sky $dcffe$-distortion fluctuation map from Planck data and derives new constraints on primordial non-Gaussianity parameters.

Findings

Upper limit on $dcffe$-distortion rms on 10' scales: $<6.4 imes 10^{-6}$

Constraints on the angular power spectra $C_{\u0016dcffedcffe}^{dcffedcffe\u0016dcffe}$ and $C_{dcffe}^{dcffe T}$ on large scales

Limits on primordial non-Gaussianity: $f_{NL}<10^5$, $ au_{NL}<1.4 imes 10^{11}$ for specific wavenumber ratios

Abstract

We use the Planck HFI channel maps to make an all sky map of $\mu$-distortion fluctuations. Our $\mu$-type distortion map is dominated by the $y$-type distortion contamination from the hot gas in the low redshift Universe and we can thus only place upper limits on the $\mu$-type distortion fluctuations. For the amplitude of $\mu$-type distortions on $10'$ scales we get the limit on root mean square (rms) value $\mu_{rms}^{10'}< 6.4\times 10^{-6}$, a limit 14 times stronger than the COBE-FIRAS ($95\%$ confidence) limit on the mean of $< \mu > <90\times 10^{-6}$. Using our maps we also place strong upper limits on the auto angular power spectrum of $\mu$, $C_{\ell}^{\mu\mu}$ and the cross angular power spectrum of $\mu$ with the CMB temperature anisotropies, $C_{\ell}^{\mu T}$. The strongest observational limits are on the largest scales, $\ell(\ell+1)/(2\pi)C_{\ell}^{\mu\mu}|_{\ell=2-26}<(2.3\pm 1.0)\times 10^{-12}$ and $\ell(\ell+1)/(2\pi)C_{\ell}^{\mu T}|_{\ell=2-26}<(2.6\pm 2.6)\times 10^{-12}~{K}$. Our observational limits can be used to constrain new physics which can create spatially varying energy release in the early Universe between redshifts $5\times 10^4\lesssim z\lesssim 2\times 10^6$. We specifically apply our observational results to constrain the primordial non-Gaussianity of the local type, when the source of $\mu$-distortion is Silk damping, for very squeezed configurations with the wavenumber for the short wavelength mode $46 \lesssim k_{S} \lesssim 10^4 ~{Mpc^{-1}}$ and for the long wavelength mode $k_{L}\approx 10^{-3} ~{Mpc^{-1}}$. Our limits on the primordial non-Gaussianity parameters are $f_{NL}<10^5, \tau_{NL}<1.4\times 10^{11}$ for $k_{S}/k_{L}\approx 5\times 10^4- 10^7$. We give a new derivation of the evolution of the $\mu$-distortion fluctuations. We also introduce mixing of Bose-Einstein spectra and $y^{BE}$-type distortions.