Bibcode
Belluzzi, L.
Bibliographical reference
Astronomy and Astrophysics, Volume 508, Issue 2, 2009, pp.933-940
Advertised on:
12
2009
Journal
Citations
3
Refereed citations
2
Description
Context: The peculiar three-peak structure of the linear polarization
profile shown in the second solar spectrum by the Ba ii line at 4554
Å has been interpreted as the result of the different
contributions coming from the barium isotopes with and without hyperfine
structure. In the same spectrum, a triple peak polarization signal is
also observed in the Sc ii line at 4247 Å. Scandium has a single
stable isotope (45Sc), which shows hyperfine structure due to
a nuclear spin I = 7/2. Aims: We investigate the possibility of
interpreting the linear polarization profile shown in the second solar
spectrum by this Sc ii line in terms of hyperfine structure.
Methods: A two-level model atom with hyperfine structure is assumed.
Adopting an optically thin slab model, the role of atomic polarization
and of hyperfine structure is investigated, avoiding the complications
caused by radiative transfer effects. The slab is assumed to be
illuminated from below by the photospheric continuum, and the
polarization of the radiation scattered at 90° is investigated. Results: The three-peak structure of the scattering polarization
profile observed in this Sc ii line cannot be fully explained in terms
of hyperfine structure. Conclusions: Given the similarities
between the Sc ii line at 4247 Å and the Ba ii line at 4554
Å, it is not clear why, within the same modeling assumptions, only
the three-peak Q/I profile of the barium line can be fully interpreted
in terms of hyperfine structure. The failure to interpret this Sc ii
polarization signal raises important questions, whose resolution might
lead to significant improvements in our understanding of the second
solar spectrum. In particular, if the three-peak structure of the Sc ii
signal is actually produced by a physical mechanism neglected within the
approach considered here, it will be extremely interesting not only to
identify this mechanism, but also to understand why it seems to be less
important in the case of the barium line.