Constraining the geometry of the gas surrounding a typical galaxy at z = 3.4 with Lyα polarization
Abstract
Lyα emission is the strongest tracer of recombining ionized hydrogen in young, star-forming galaxies, but its origin is still debated. Lyα arises when emitted photons scatter in neutral hydrogen and, so far, observational efforts have mostly focused on the Lyα surface brightness and spectral profile, which depend on the neutral hydrogen column density, geometry, kinematics, powering mechanism and on the region from which the photons are emitted. Different processes produce similar spectra, but have different degrees of polarization, that we can use to discriminate between them. In this paper, we present the first spectropolarimetric observations of a typical star-forming galaxy at z 3.4, strongly lensed by the cluster of galaxies Abell 2895, taken with the PMOS mode of the VLT/FORS2 instrument. We measure a Lyα degree of polarization 1σ upper limit of 4.6\%. We develop new Lyα radiative transfer models to reproduce the observations, that can be explained by assuming the star-forming galaxy being embedded in a CGM with a biconical outflow geometry, with an opening angle of the wind θo,Wind 30 for line-of-sight angles θLOS ≤ 20, θo,Wind 45 for θLOS≤ 20, θo,Wind 60 for θLOS≤ 20, and θo,Wind 75 for θLOS≤ 40, where θLOS=0 means observing in the direction of the outflow. We notice that the constraints from polarization are complementary to those from the spectral line profile. This study shows the potential of adding measurements of the Lyα degree of polarization to constrain the geometry of the gas surrounding typical star-forming galaxies and paves the way to spatially resolved studies that will allow us to disentangle between different Lyα origin mechanisms.
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