Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-12-01T12:34:37.275Z Has data issue: false hasContentIssue false

SIMURIS: High-Resolution Solar Physics

Published online by Cambridge University Press:  12 April 2016

Robert J. Rutten
Affiliation:
Sterrekundig Instituut, Postbus 80 000, NL-3508 TA Utrecht, TheNetherlands
Luc Damé
Affiliation:
Service d’Aeronomie CNRS, BP N° 3, F-91371 Verrières-le-Buisson Cedex, France

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The magnetic fields of the Sun provide the major incentive to do solar physics. The small spatial extent of the magnetically constrained structures and processes in the solar atmosphere provide the major incentive for high resolution solar telescopes. The visibility of the outer solar atmosphere in the ultraviolet and X-ray domains provide the major incentive for solar space telescopes. Cost provides the major incentive to use interferometric techniques. SIMURIS employs short-wave interferometry from space to measure solar structures and processes with high resolution.

Type
Session 3. Techniques of Magnetic Field Measurements
Copyright
Copyright © Astronomical Society of the Pacific 1993

References

Coradini, M., Damé, L., Foing, B., Haskell, G., Kassing, D., Olthof, H., Mersch, G., Rutten, R.J., Thorne, A.P., Vial, J.-C. 1991, ESA SCI, (91) 7, 1 Google Scholar
Dainty, C., Mattok, C. (eds.) 1992, Targets for Space-Based Interferometry, ESA SP-354, ESA Publ. Div., Estec, Noordwijk, in pressGoogle Scholar
Damé, L., Curdt, W., Marsch, E., Hammer, R., Mattig, W., Birkmayer, W., Lutz, R., Rutten, R.J., Braam, B., Visser, H., Tondello, G., Harrison, R., Patchett, B., Delaboudinière, J.-P., Foing, B., Vial, J.-C, Malaise, D., Giner, J. 1991, Solar Ultraviolet Network Spacelab Version (SUN-SV), Complementary proposal submitted for the COLUMBUS Precursor Flight Spacelab-2, Service d’Aéronomie du CNRS, Verrières-le-BuissonGoogle Scholar
Damé, L., Guyenne, T.-D. 1992, Solar Physics and Astrophysics at Interfero-metric Resolution, ESA SP-344, ESA Publ. Div., ESTEC, Noordwijk Google Scholar
Damé, L., Rutten, R.J. 1992, in Damé, L., Guyenne, T.-D. (eds.), Solar Physics and Astrophysics at Interferometric Resolution, ESA SP-344, ESA Publ. Div., ESTEC, Noordwijk, p.21 Google Scholar
Heinzel, P., Vial, J.-C. 1992, in Damé, L, Guyenne, T.-D (eds.), Solar Physics and Astrophysics at Interferometric Resolution, ESA SP-344, ESA Publ. Div., ESTEC, Noordwijk, p.57 Google Scholar
Rutten, R.J. 1990, in Stenflo, J.-O (ed.), Solar Photosphere: Structure, Convection and Magnetic Fields, IAU Symposium 138 (Kiev), Kluwer, Dordrecht, p. 501 Google Scholar
Rutten, R.J. 1992, in Mattok, C. (ed.), Targets for Space-based Interferometry, ESA SP-354, ESA Publ. Div., ESTEC, Noordwijk, in pressGoogle Scholar
Rutten, R.J., Cram, L.E. 1981, in Jordan, S. D. (ed.), The Sun as a Star, CNRS-NASA Monograph Series on Nonthermal Phenomena in Stellar Atmospheres, NASA SP-450, Washington p. 3 Google Scholar
Worden, S.P. 1992, in Giampapa, M. S., Bookbinder, J.A. (eds.), Seventh Cambridge Workshop on Cool Stars, Stellar Systems and the Sun, Astron. Soc. Pac. Conf. Series, Vol. 26, p. 599 Google Scholar
Zirin, H. 1992, in Schmelz, J. T., Brown, J.C (eds.), The Sun: A Laboratory for Astrophysics, NATO-ASI Series C-373, Kluwer, Dordrecht, p. 379 Google Scholar