Carlo Burigana, Rodney D. Davies, Paolo De Bernardis, Jacques Delabrouille, Francesco De Paolis, Marian Douspis, Rishi Khatri, Guo Chin Liu, Michele Maris, Silvia Masi, Aniello Mennella, Paolo Natoli, Hans Ulrik Norgaard-Nielsen, Etienne Pointecouteau, Yoel Rephaeli, Luigi Toffolatti
In this article we focus on the astrophysical results and the related cosmological implications derived from recent microwave surveys, with emphasis to those coming from the Planck mission. We critically discuss the impact of systematics effects and the role of methods to separate the cosmic microwave background signal from the astrophysical emissions and each different astrophysical component from the others. We then review of the state of the art in diffuse emissions, extragalactic sources, cosmic infrared back- ground, and galaxy clusters, addressing the information they provide to our global view of the cosmic structure evolution and for some crucial physical parameters, as the neutrino mass. Finally, we present three different kinds of scientific perspectives for fundamental physics and cosmology offered by the analysis of on-going and future cosmic microwave background projects at different angular scales dedicated to anisotropies in total intensity and polarization and to absolute temperature.
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http://arxiv.org/abs/1302.3474
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