T. Trombetti

Semi-analytical description of clumping factor and cosmic microwave background free–free distortions from reionization

The density contrast of the Universe, parametrized in terms of the matter power spectrum and its variance, can amplify the signal of the free-free process in the plasma. The damping of fluctuations on scales smaller than the DM particle free streaming scale corresponds to a suppression of the total matter power spectrum on large wave numbers k. We derive the time evolution of the variance of the matter power spectrum for various cosmological models and parameters by numerically computing the power spectrum with a modified version of the Boltzmann code CAMB, for different values of the cut-off parameter kmax. Suitable analytical approximations of the numerical results are presented. We then characterize the CMB free-free spectral distortion accounting for the amplification effect coming from clumping factor. Indeed, the clumpiness, associated to the density contrast of the intergalactic medium, increases at decreasing redshift. The analysis is carried out for selected astrophysical and phenomenological cosmological reionization histories, for which we evaluate the impact of the clumping factor on the free-free distortion and discuss the wavelength dependence of the predicted signal. Finally, we address a comparison with other classes of unavoidable CMB spectral distortions and future observational perspectives. While Comptonization from reionization is dominant at high frequencies, the free-free signal predicted in the considered models contributes to the distortion at a level of few (few tens) per cent at frequencies below about 25 GHz (10 GHz) and represents the main signature below about 4 GHz. The cosmological signal from the HI 21-cm background is found to prevail over the free-free distortion in a restricted, model dependent frequency window between about 0.1 and 0.2 GHz.

Multifrequency polarimetry of a complete sample of PACO radio sources

We present high sensitivity polarimetric observations in 6 bands covering the 5.5-38 GHz range of a complete sample of 53 compact extragalactic radio sources brighter than 200 mJy at 20 GHz. The observations, carried out with the Australia Telescope Compact Array (ATCA), achieved a 91% detection rate (at 5 sigma). Within this frequency range the spectra of about 95% of sources are well fitted by double power laws, both in total intensity and in polarisation, but the spectral shapes are generally different in the two cases. Most sources were classified as either steep- or peaked-spectrum but less than 50% have the same classification in total and in polarised intensity. No significant trends of the polarisation degree with flux density or with frequency were found. The mean variability index in total intensity of steep-spectrum sources increases with frequency for a 4-5 year lag, while no significant trend shows up for the other sources and for the 8 year lag. In polarisation, the variability index, that could be computed only for the 8 year lag, is substantially higher than in total intensity and has no significant frequency dependence.

Characterization of polarimetric and total intensity behaviour of a complete sample of PACO radio sources in the radio bands

We present high sensitivity (

Average fractional polarization of extragalactic sources at Planck frequencies

\sigma_P \simeq 0.6\,

SKA synergy with Microwave Background studies

mJy) polarimetric observations in seven bands, from

Perspectives for Cosmological Reionization From Future CMB and Radio Projects

2.1

Recent results and perspectives on cosmology and fundamental physics from microwave surveys

to

Imprints on CMB Angular Power Spectrum Modes from Cosmological Reionization

38\,

Square Kilometre Array and cosmic microwave background spectral distortions

GHz, of a complete sample of

Astrophysical components from Planck maps

104