Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-29T15:23:32.277Z Has data issue: false hasContentIssue false

Nonlinear Alfvén wave model of spicules and coronal heating

Published online by Cambridge University Press:  01 September 2007

Takahiro Kudoh*
Affiliation:
Division of Theoretical Astronomy, National Astronomical Observatory of Japan, Mitaka, Tokyo 181-8588, Japan email:[email protected]
Rights & Permissions [Opens in a new window]

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.

We review the theoretical studies of the Alfvén wave model of spicules and coronal heating, mainly based on the papers by Kudoh & Shibata (1999), Saito et al. (2001) and Moriyasu et al. (2004) which performed MHD numerical simulations of nonlinear Alfvén waves propagating along a magnetic flux tube in the solar atmosphere. Kudoh & Shibata (1999) and Saito et al. (2001) found that, if the root mean square of the perturbation is greater than ~ 1 km s−1 in the photosphere, (1) the transition region is lifted up to more than ~ 5000 km (i.e., the spicule is produced), (2) the energy flux sufficient for heating the quiet corona (~ 3.0 × 105 ergs s−1 cm−2) is transported into the corona by Alfvén waves. Moriyasu et al. (2004) demonstrated that a hot corona is created in an initially cool loop as a result of the nonlinear Alfvén waves produced near the photosphere. We conclude that the nonlinear Alfvén wave model is the promising model of spicules and coronal heating.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2008

References

Antolin, P., Shibata, K., Kudoh, T., Shiota, D., & Brooks, D. 2008, in Erdélyi, R. and Mendoza-Briceño, C.A. (eds.) Waves & Oscillations in the Solar Atmosphere: Heating and Magneto-seismology, IAU Symposyum 247, 281Google Scholar
Beckers, J.M. 1972, ARAA 10, 73CrossRefGoogle Scholar
De Pontieu, B., Erdélyi, R., & James, S.P. 2004, Nature 430, 536CrossRefGoogle Scholar
De Pontieu, B., & Erdélyi, R. 2006, Phil. Trans. R. Soc. A 364, 383CrossRefGoogle Scholar
De Pontieu, B., Hansteen, V.H., Rouppe van der Voort, L., van Noort, M., & Carlsson, M. 2007, ApJ 655, 624CrossRefGoogle Scholar
Fujita, Y., Suzuki, T.K., Kudoh, T., & Yokoyama, T. 2007, ApJ (Letters) 659, L1CrossRefGoogle Scholar
Haerendel, G. 1992, Nature 360, 241CrossRefGoogle Scholar
Hansteen, V.H., De Pontieu, B., Rouppe van der Voort, L., van Noort, M., & Carlsson, M. 2006, ApJ (Letters) 647, L73CrossRefGoogle Scholar
Heggland, L., De Pontieu, B., & Hansteen, V.H. 2007, ApJ 666, 1277CrossRefGoogle Scholar
Hollweg, J.V. 1982, ApJ 257, 345CrossRefGoogle Scholar
Hollweg, J.V., Jackson, S., & Galloway, D. 1982, Solar Phys. 75, 35CrossRefGoogle Scholar
Hollweg, J.V. 1992, ApJ 389, 731CrossRefGoogle Scholar
James, S.P., & Erdélyi, R. 2002, A&A (Letters) 393, L11Google Scholar
James, S.P., Erdélyi, R., & De Pontieu, B. 2003, A&A 406, 715Google Scholar
Kudoh, T., & Shibata, K. 1999, ApJ 514, 493CrossRefGoogle Scholar
Kudoh, T., & Basu, S. 2003, ApJ 595, 842CrossRefGoogle Scholar
Kudoh, T., & Basu, S. 2006, ApJ 642, 270CrossRefGoogle Scholar
Moriyasu, S., Kudoh, T., Yokoyama, T., & Shibata, K. 2004, ApJ (Letters) 601, L107CrossRefGoogle Scholar
Moriyasu, S., & Shibata, K. 2004, in: Walsh, R.W., Ireland, J., Danesy, D. & Fleck, B. (eds.), Proceedings of the SOHO 15 Workshop - Coronal Heating, (Paris: ESA), ESASP-575, p. 80Google Scholar
Nishikawa, T. 1988, PASJ 40, 613Google Scholar
Parker, E.N. 1988, ApJ 330, 474CrossRefGoogle Scholar
Saito, T., Kudoh, T., & Shibata, K. 2001, ApJ 554, 1151Google Scholar
Shibata, K., Nishikawa, T., Kitai, R., & Suematsu, Y. 1982, Solar Phys. 77, 121CrossRefGoogle Scholar
Sterling, A.C., & Mariska, J.T. 1990, ApJ 349, 647CrossRefGoogle Scholar
Sterling, A.C. 2000, Solar Phys. 196, 79CrossRefGoogle Scholar
Sterling, A.C., Shibata, K., & Mariska, J.T. 1993, ApJ 407, 778CrossRefGoogle Scholar
Suematsu, Y., Shibata, K., Nishikawa, T., & Kitai, R. 1982, Solar Phys. 75, 99CrossRefGoogle Scholar
Suematsu, Y. 1990, in: Osaki, Y. & Shibahashi, H. (eds.), Progress of Seismology of the Sun and Stars, (Berlin: Springer), p. 211CrossRefGoogle Scholar
Suematsu, Y., Wang, H., & Zrin, H. 1995, ApJ 450, 411CrossRefGoogle Scholar
Suzuki, T.K., & Inutsuka, S. 2005, ApJ (Letters) 632, L49CrossRefGoogle Scholar
Suzuki, T.K. 2007, ApJ 659, 1592CrossRefGoogle Scholar
Takeuchi, A, & Shibata, K. 2001, ApJ (Letters) 546, L73CrossRefGoogle Scholar
Taroyan, Y., Erdélyi, R., Doyle, J.G., & Bradshaw, S.J. 2007, A&A 462, 331Google Scholar