N. Raffuzzi, M. Lembo, S. Giardiello, M. Gerbino, M. Lattanzi, P. Natoli, L. Pagano
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Unveiling V Modes: Enhancing CMB Sensitivity to BSM Physics with a Non-Ideal Half-Wave Plate
V-mode polarization of the cosmic microwave background is expected to be
vanishingly small in the $\Lambda$CDM model and, hence, usually ignored.
Nonetheless, several astrophysical effects, as well as beyond standard model
physics could produce it at a detectable level. A realistic half-wave plate -
an optical element commonly used in CMB experiments to modulate the polarized
signal - can provide sensitivity to V modes without significantly spoiling that
to linear polarization. We assess this sensitivity for some new-generation CMB
experiments, such as the LiteBIRD satellite, the ground-based Simons
Observatory and a CMB-S4-like experiment. We forecast the efficiency of these
experiments to constrain the phenomenology of certain classes of BSM models
inducing mixing of linear polarization states and generation of V modes in the
CMB. We find that new-generation experiments can improve current limits by
1-to-3 orders of magnitude, depending on the data combination. The inclusion of
V-mode information dramatically boosts the sensitivity to these BSM models.
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