Spectropolarimetric data for the solar Ca i line at 4227,Å can be acquired from ground-based facilities and theoretical modeling studies have established their sensitivity to magnetic fields across a broad range of atmospheric heights; however, a routinely usable inference tool has been lacking until now. Here, we present the first successful inversion of the spectropolarimetric observations in Ca i 4227 acquired with the ZIMPOL polarimeter at the IRSOL observatory in Locarno. The inversion process incorporates the physical ingredients required for an accurate modeling of these observations, including non-local thermodynamic equilibrium effects, partial frequency redistribution in the general angle-dependent formulation, and the magnetic sensitivity arising from the joint action of the Hanle, Zeeman, and magneto-optical effects. By simultaneously fitting the height-dependent plasma bulk velocity and magnetic field that best reproduce the observed polarization signals, we inferred a physically meaningful stratification of the magnetic field from the photosphere to the low chromosphere. Such inversions demonstrate the feasibility of developing a pipeline to provide information on the magnetism of the low chromosphere and the underlying photosphere from Ca i 4227 spectropolarimetric observations.
Janett et al. (Mon,) studied this question.
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