Bibcode
Moreno-Insertis, F.; Galsgaard, K.; Ugarte-Urra, I.
Referencia bibliográfica
The Second Hinode Science Meeting: Beyond Discovery-Toward Understanding ASP Conference Series, Vol. 415, proceedings of a meeting held 29 September through 3 October 2008 at the National Center for Atmospheric Research, Boulder, Colorado, USA. Edited by B. Lites, M. Cheung, T. Magara, J. Mariska, and K. Reeves. San Francisco: Astronomical Society of the Pacific, 2009, p.51
Fecha de publicación:
12
2009
Número de citas
1
Número de citas referidas
1
Descripción
We report on our recent 3D numerical models of the launching of hot,
high-speed jets in a coronal hole following the emergence of magnetized
plasma from the solar interior. As part of the same research, we have
also analyzed Hinode (EIS and XRT) and Soho-MDI observational data of an
actual process of flux emergence followed by jet launching in a coronal
hole. From the observations, we reconstruct the magnetic topology at the
emergence site and calculate velocity and further physical properties of
the observed event. The 3D model was calculated for realistic conditions
in a coronal hole, including, in particular, a low-density (108
particles cm-3), high Alfven speed plasma prior to the emergence.
After emergence, a ribbon-like current sheet is created at the site of
collision of the emerging and preexisting magnetic systems. Field line
reconnection ensues, which leads to the ejection of the X-Ray jet. We
analyze the global magnetic topology, and the temperature, velocity and
current distribution in the 3D experiment. The numerical results provide
a good match to the observed features of the coronal hole jets. This is
meant regarding both our own observational results as well as the ranges
and average values of the statistical study by Savcheva et al. (2007).