Is cosmic birefringence due to dark energy or dark matter? A tomographic approach

Abstract

A pseudoscalar "axionlike" field, φ, may explain the 3σ hint of cosmic birefringence observed in the EB power spectrum of the cosmic microwave background (CMB) polarization data. Is φ dark energy or dark matter? A tomographic approach can answer this question. The effective mass of dark energy field responsible for the accelerated expansion of the Universe today must be smaller than mφ 10-33 eV. If mφ 10-32 eV, φ starts evolving before the epoch of reionization and we should observe different amounts of birefringence from the EB power spectrum at low (l 10) and high multipoles. Such an observation, which requires a full-sky satellite mission, would rule out φ being dark energy. If mφ 10-28 eV, φ starts oscillating during the epoch of recombination, leaving a distinct signature in the EB power spectrum at high multipoles, which can be measured precisely by ground-based CMB observations. Our tomographic approach relies on the shape of the EB power spectrum and is less sensitive to miscalibration of polarization angles.