μ-Distortions or Running: A Guaranteed Discovery from CMB Spectrometry

Abstract

We discuss the implications of a PIXIE-like experiment, which would measure μ-type spectral distortions of the CMB at a level of σμ=(1/n)× 10-8, with n≥1 representing an improved sensitivity (e.g. n=10 corresponds to PRISM). Using Planck data and considering the six-parameter model, we compute the posterior for μ8μ× 108 and find μ8=1.57+0.11-0.13 (68\%\,CL). This becomes μ8 = 1.28+0.30-0.52 (68\%\,CL) when the running αs of the spectral index is included. We point out that a sensitivity of about 3× PIXIE implies a guaranteed discovery: μ-distortion is detected or αs≥ 0 is excluded (both at 95\%\,CL or higher). This threshold sensitivity sets a clear benchmark for CMB spectrometry. For a combined analysis of PIXIE and current Planck data, we discuss the improvement on measurements of the tilt ns and the running αs and the dependence on the choice of the pivot. A fiducial running of αs=-0.01 (close to the Planck best-fit) leads to a detection of negative running at 2σ for 5× PIXIE. A fiducial running of αs=-0.02, still compatible with Planck, requires 3× PIXIE to rule out αs = 0 (at 95\%\,CL). We propose a convenient and compact visualization of the improving constraints on the tilt, running and tensor-to-scalar ratio.