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Non-LTE Calculations of the Fe I 6173 {\AA} Line in a Flaring Atmosphere
The Fe I 6173 {\AA} line is widely used in the measurements of vector
magnetic fields by instruments including the Helioseismic and Magnetic Imager
(HMI). We perform non-local thermodynamic equilibrium calculations of this line
based on radiative hydrodynamic simulations in a flaring atmosphere. We employ
both a quiet-Sun atmosphere and a penumbral atmosphere as the initial one in
our simulations. We find that, in the quiet-Sun atmosphere, the line center is
obviously enhanced during an intermediate flare. The enhanced emission is
contributed from both radiative backwarming in the photosphere and particle
beam heating in the lower chromosphere. A blue asymmetry of the line profile
also appears due to an upward mass motion in the lower chromosphere. If we take
a penumbral atmosphere as the initial atmosphere, the line has a more
significant response to the flare heating, showing a central emission and an
obvious asymmetry. The low spectral resolution of HMI would indicate some loss
of information but the enhancement and line asymmetry are still kept. By
calculating polarized line profiles, we find that the Stokes I and V profiles
can be altered as a result of flare heating. Thus the distortion of this line
has a crucial influence on the magnetic field measured from this line, and one
should be cautious in interpreting the magnetic transients observed frequently
in solar flares.Comment: 12 pages, 5 figures, accepted by ApJ
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