Measuring Ultralight-Axion Coherence with Galaxy Polarization Correlations
Abstract
Ultralight axion-like particles coupled to photons rotate the linear polarization of distant sources. We propose using the three-dimensional two-point correlation of galaxy polarization-rotation angles to measure not only the amplitude of this birefringence field but also its spatial coherence scale. For a nonrelativistic ALP component with an isotropic Gaussian velocity distribution, the equal-time field correlation has an e-1 scale L G phys=6/(ma va), where va is the three-dimensional rms ALP velocity dispersion. A detected turnover in the galaxy-pair correlation therefore measures the characteristic momentum scale ma va, while the correlation amplitude constrains gaγΩa/Ω DM. For a fiducial survey with 106 polarized galaxies over a quarter of the sky to z=2 and effective per-galaxy scatter σ tot=10, we find 5σ sensitivity to sub-degree correlated rotations over ma(10-3c/va)10-29--10-27\, eV, with σ[10(ma va)]0.1 for detected signals across much of this range. This provides a geometric late-time probe complementary to CMB birefringence and structure-formation constraints.
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