Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-28T02:11:02.209Z Has data issue: false hasContentIssue false

Solar chromospheric and coronal magnetic structure: science cases for Dome C

Published online by Cambridge University Press:  24 December 2009

M. Faurobert*
Affiliation:
Laboratoire Fizeau, University of Nice Sopha Antipolis & Observatory of the Côte d'Azur, Nice, France
Get access

Abstract

Magnetic fields play a crucial role for the physics of the dilute and hot upper parts of the solar atmosphere, from the low chromosphere up to the outer corona. Numerical modeling of these regions by MHD codes and 3D radiative transfer in spectral lines has started, we urgently need direct measurement of the magnetic and velocity fields in order to confirm and improve such modeling. Direct measurements of the magnetic field vector rely on spectro-polarimetric observations of the Hanle or Zeeman effects in spectral lines. In the upper solar atmosphere the magnetic field strength tends to decrease with height and lines are broaedened both thermally and by turbulent and wave motions. The sensitivity of spectral lines to Zeeman effect is thus low under such conditions, but it increases linearly with wavelength. The infrared is the domain of choice for Zeeman observations in chromospheric and coronal lines. Moreover, as chromospheric and coronal structures develop on a broad range of spatial scales, from very fine to large scales, high spatial resolution observations are required. These observations are very demanding in photometric sensitivity, together with spatial and temporal resolution. Dome C conditions of both very good day-time seeing and high coronal quality are unique and make it a site of choice for a possible breakthrough in our understanding of the physical mechanisms at play in the outer solar atmosphere.

Type
Research Article
Copyright
© EAS, EDP Sciences, 2010

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

DeRosa, M.L., Schrijver, C.J., Barnes, G., et al., 2009, ApJ, 696, 1780 CrossRef
De Pontieu, B., McIntosh, S.W., Carlsson, M., et al., 2007, Science, 318, 1574 CrossRef
Eibe, M.T., Aulanier, G., Faurobert, M., Mein, P., & Malherbe, J.M., 2002, A&A, 381, 290
Faurobert, M., Derouich, M., Bommier, V., & Arnaud, J., 2009, A&A, 493, 201
Hansteen, V.H., Carlsson, M., & Gudiksen, B., 2007, in The Physics of Chromospheric Plasmas ASP Conference Series, Vol. 368, Proceedings of the conference held 9-13 October, 2006 at the University of Coimbra in Coimbra, Portugal, ed. P. Heinzel, I. Dorotovi, and R.J. Rutten (San Francisco: Astronomical Society of the Pacific), 107
Jess, D.B., Mathioudakis, M., Erdlyi, R., et al., 2009, Science, 323, 1582 CrossRef
Judge, P.G., 2007, ApJ, 662, 677 CrossRef
Judge, P.G., Low, B.C., & Casini, R., 2006, ApJ, 651, 1229 CrossRef
Li, H., Sakurai, T., Ichimito, K., et al., 2007, PASJ, 59S, 643 CrossRef
Peter, H., Gudiksen, B.V., & Nordlund, 2006, ApJ, 638, 1086 CrossRef
Soccas-Navarro, H., & Elmore, D., 2005, ApJ, 619, L195 CrossRef
Tomczyk, S., McIntosh, S.W., Keil, S.L., et al., 2007, Science, 317, 1192 CrossRef
Tritschler, A., Uitenbroek, H., & Reardon, K., 2008, ApJ, 686, L45 CrossRef