Exploring compensated isocurvature perturbations with CMB spectral distortion anisotropies

Abstract

We develop a linear perturbation theory for the spectral y-distortions of the cosmic microwave background (CMB). The y-distortions generated during the recombination epoch are usually negligible because the energy transfer due to the Compton scattering is strongly suppressed at that time, but they can be significant if there is a considerable amount of compensated isocurvature perturbation (CIP), which is not tightly constrained from the present CMB observations. The linear y-distortions explicitly depend on the baryon density fluctuations, therefore y anisotropies can completely resolve the degeneracy between the baryon isocurvature perturbations and the cold dark matter ones. This novel method is free from lensing contaminations that can affect the previous approach to the CIPs based on the nonlinear modulation of the CMB anisotropies. We compute the cross correlation functions of the y-distortions with the CMB temperature and the E mode polarization anisotropies. They are sensitive to the correlated CIPs parameterized by f' P CIPζ/ Pζ ζ with Pζ ζ and P CIPζ being the auto correlation of the adiabatic perturbations and the cross correlation between them and the CIPs. We investigate how well the y anisotropies will constrain f' in future observations such as those provided by a PIXIE-like and a PRISM-like survey, LiteBIRD and a cosmic variance limited (CVL) survey, taking into account the degradation in constraining power due to the presence of Sunyaev Zel'dovich effect from galaxy clusters. For example, our forecasts show that it is possible to achieve an upper limit of f'< 2 × 105 at 68% C.L. with LiteBIRD, and f'<2× 104 with CVL observations.