Abstract

We study contribution to the secondary anisotropy maps of cosmic microwave background (CMB) radiation which difficult to account for faint sources. Two effects are investigated. They are the Sunyaev–Zeldovich effect connected with the inverse Compton scattering of CMB photons on hot electrons of cluster of galaxies, and contamination of the background by weak extragalctic sources. First, we study fields of the Planck CMB maps around radio sources of the RATAN-600 catalog. We see weak microwave sources which make an additional contribution to the secondary anisotropy on angular small scales (< 7′). An algorithm for selecting candidate objects with the Sunyaev–Zeldovich effect was proposed, based on the use of data on the radio spectral indices and the signal in cosmic-microwave background maps. Second, applying the stacking method, we examine the areas of the CMB maps, constructed according to the Planck Space Observatory data in the neighborhood of different populations of radio sources and giant elliptical galaxies. The samples of objects include giant radio galaxies (GRG), radio sources, selected by the radio spectral index and redshift, as well as the gammaray bursts, used as a secondary comparative sample. The signal from this objects exists on CMB maps and its difference in the neighborhood of GRGs from the other types of objects was discovered.

Highlights

  • We study contribution to the secondary anisotropy maps of cosmic microwave background (CMB) radiation which difficult to account for faint sources

  • They are (a) internal linear combination in spherical wavelets domain — needlets (NILC), (b) template fitting using data at different frequencies to estimate by the expectation maximazation algorithm (Spectral Estimation Via Expectation Maximazation — SEVEM), (c) the method realized in the sperical harmonic domain of amplitude matching of the CMB spectral parameters and background components (Spectral Matching Independent Component Analysis — SMICA), and (d) the Bayesian separation of components in the pixel space by matching a parametric model (Commander)

  • The relatively low negative level of the background on the CMB map could be due to an additional contribution to the inhomogeneity of the Sunyaev-Zeldovich effect, enhanced during the separation of the components and reconstruction of the CMB signal

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Summary

To the problem of the secondary CMB anisotropy separation

Oleg Verkhodanov1, , Dmitrij Solovyov2, , Elena Majorova1, , and Margarita Khabibullina1, 1Special Astrophysical Observatory, Russian Academy of Sciences, Nizhnii Arkhyz, 369167 Russia 2St. Petersburg Branch of the Special Astrophysical Observatory of the Russian Academy of Sciences, St.Petersburg, Russia 196140

Introduction
Secondary anisotropy maps
Spectral index
Response from radio galaxies on the Planck microwave maps
Summary

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