Abstract
This Science White Paper, prepared in response to the ESA Voyage 2050 call
for long-term mission planning, aims to describe the various science
possibilities that can be realized with an L-class space observatory that is
dedicated to the study of the interactions of cosmic microwave background (CMB)
photons with the cosmic web. Our aim is specifically to use the CMB as a
backlight -- and survey the gas, total mass, and stellar content of the entire
observable Universe by means of analyzing the spatial and spectral distortions
imprinted on it. These distortions result from two major processes that impact
on CMB photons: scattering by electrons (Sunyaev-Zeldovich effect in diverse
forms, Rayleigh scattering, resonant scattering) and deflection by
gravitational potential (lensing effect). Even though the list of topics
collected in this White Paper is not exhaustive, it helps to illustrate the
exceptional diversity of major scientific questions that can be addressed by a
space mission that will reach an angular resolution of 1.5 arcmin (goal 1
arcmin), have an average sensitivity better than 1 uK-arcmin, and span the
microwave frequency range from roughly 50 GHz to 1 THz. The current paper also
highlights the synergy of our BACKLIGHT mission concept with several upcoming
and proposed ground-based CMB experiments.
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