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Resistive magnetic flux emergence and formation of solar active regions

Published online by Cambridge University Press:  27 June 2012

M. Faurobert ,
C. Fang ,
T. Corbard ,
E. Pariat ,
B. Schmieder ,
S. Masson  and
G. Aulanier
E. Pariat
Affiliation:
LESIA, Observatoire de Paris, CNRS, UPMC, Université Paris Diderot, Meudon, France
B. Schmieder
Affiliation:
LESIA, Observatoire de Paris, CNRS, UPMC, Université Paris Diderot, Meudon, France
S. Masson
Affiliation:
Space Weather Laboratory, Heliophysics Division, NASA Goddard Space Flight Center, Greenbelt, MD, USA
G. Aulanier
Affiliation:
LESIA, Observatoire de Paris, CNRS, UPMC, Université Paris Diderot, Meudon, France
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Abstract

Magnetic flux emergence as the mechanism leading to the formation of magnetized structures in the solar atmosphere plays a key role in the dynamic of the Sun. Observed as a whole, emerging flux regions show clear signs of twisted structure, bearing the magnetic free energy necessary to power active events. The high resolution observations of the recent solar observatories (e.g. Hinode, SDO) have revealed how intermittent the magnetic field appears and how various active events induced by flux emergence are. Magnetic field reconstructions methods show that the topology of the field in interspot regions presents a serpentine structure, i.e. field lines having successive U and Ω parts. Associated with the appearance of magnetic polarities, a tremendous number of brief small scale brightening are observed in different photospheric and chromospheric lines, e.g. Ellerman Bombs, along with small scale jet-like structures. These events are believed to be the observational signatures of the multiple magnetic reconnections which enable the magnetic field to emerge further up and magnetically structure the corona above active region. Meanwhile a world-wide effort to numerically model the emergence of magnetic field forming solar active region is been carried on. Using different types of physical paradigm – e.g. idealized magnetohydrodynamic model, advanced treatment of the physical equations, data-driven simulations – these numerical experiments highlight how electric currents can build-up during flux emergence, lead to reconnection and thus explain the formation of the different observed transients.

Type
Research Article
Information
European Astronomical Society Publications Series , Volume 55: 4th French-Chinese Meeting on Solar Physics - Understanding Solar Activity: Advances and Challenges , 2012 , pp. 115 - 124
Copyright
© EAS, EDP Sciences 2012

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References

Abbett, W.P., Fisher, G.H., & Fan, Y., 2000, ApJ, 540, 548 CrossRef
Archontis, V., 2008, J. Geophys. Res., 113
Archontis, V., & Hood, A.W., 2009, A&A, 508, 1469
Berlicki, A., Heinzel, P., & Avrett, E.H., 2010, Mem. della Soc. Astron. Ital., 81, 646
Bernasconi, P.N., Rust, D.M., Georgoulis, M.K., & Labonte, B.J., 2002, Solar Phys., 209, 119 CrossRef
Canou, A., Amari, T., Bommier, V., et al., 2009, ApJ, 693, L27 CrossRef
Chen, P.-F., Fang, C., & Ding, M.-D., 2001, Chin. J. A&A, 1, 176
Cheung, M.C.M., Schüssler, M., & Moreno-Insertis, F., 2007, A&A, 467, 703
Cheung, M.C.M., Schüssler, M., Tarbell, T.D., & Title, A.M., 2008, ApJ, 687, 1373 CrossRef
Démoulin, P., & Pariat, E., 2009, Adv. Space Res., 43, 1013 CrossRef
Ding, M.-D., Henoux, J.-C., & Fang, C., 1998, A&A, 332, 761 PubMed
Ellerman, F., 1917, ApJ, 46, 298 CrossRef
Fan, Y., 2001, ApJ, 554, L111 CrossRef
Fan, Y., 2009, Liv. Rev. Solar Phys., 6, 4
Fan, Y., Abbett, W.P., & Fisher, G.H., 2003, ApJ, 582, 1206 CrossRef
Fang, C., Henoux, J.-C., & Gan, W.Q., 1993, A&A, 274, 917 PubMed
Fang, C., Tang, Y.H., Xu, Z., Ding, M.-D., & Chen, P.F., 2006, ApJ, 643, 1325 CrossRef
Fisher, G.H., Fan, Y., Longcope, D.W., Linton, M.G., & Abbett, W.P., 2000, Phys. Plasm., 7, 2173 CrossRef
Guglielmino, S.L., Bellot Rubio, L.R., Zuccarello, F., et al., 2010, ApJ, 724, 1083 CrossRef
Guo, Y., Schmieder, B., Démoulin, P., et al., 2010, ApJ, 714, 343 CrossRef
Henoux, J.-C., Fang, C., & Ding, M.-D., 1998, A&A, 337, 294
Isobe, H., Miyagoshi, T., Shibata, K., & Yokoyama, T., 2006, PASJ, 58, 423
Isobe, H., Tripathi, D., & Archontis, V., 2007, ApJ, 657, L53 CrossRef
Jiang, R.L., Fang, C., & Chen, P.F., 2010, ApJ, 710, 1387 CrossRef
Jouve, L., & Brun, A.S., 2007, Astron. Nachr., 328, 1104 CrossRef
Jouve, L., & Brun, A.S., 2009, A&A, 701, 1300
Leake, J.E., 2006, Ph.D. Thesis, 1
Leake, J.E., & Arber, T.D., 2006, A&A, 450, 805
López Fuentes, M.C., Démoulin, P., Mandrini, C.H., Pevtsov, A.A., & van Driel-Gesztelyi, L., 2003, A&A, 397, 305
Luoni, M.L., Démoulin, P., Mandrini, C.H., & van Driel-Gesztelyi, L., 2011, Solar Phys., 270, 45 CrossRef
Magara, T., 2001, ApJ, 549, 608 CrossRef
Magara, T., 2008, ApJ, 685, L91 CrossRef
Malherbe, J.M., Schmieder, B., Mein, P., et al., 1998, Solar Phys., 180, 265 CrossRef
Masson, S., Pariat, E., Aulanier, G., & Schrijver, C.J., 2009, ApJ, 700, 559 CrossRef
Moreno-Insertis, F., 2007, New Solar Phys. Solar-B Miss. ASP Conf. Ser., 369, 335
Moreno-Insertis, F., & Emonet, T., 1996, ApJ, 472, L53 CrossRef
Morita, S., Shibata, K., Ueno, S., et al., 2010, PASJ, 62, 901
Murray, M.J., & Hood, A.W., 2008, A&A, 479, 567
Murray, M.J., Hood, A.W., Moreno-Insertis, F., Galsgaard, K., & Archontis, V., 2006, A&A, 460, 909
Otsuji, K., Shibata, K., Kitai, R., et al., 2007, PASJ, 59, 649
Pariat, E., Aulanier, G., Schmieder, B., et al., 2004, ApJ, 614, 1099 CrossRef
Pariat, E., Aulanier, G., Schmieder, B., et al., 2006, Adv. Space Res., 38, 902 CrossRef
Pariat, E., Masson, S., & Aulanier, G., 2009, ApJ, 701, 1911 CrossRef
Pariat, E., Schmieder, B., Berlicki, A., et al., 2007a, A&A, 473, 279
Pariat, E., Schmieder, B., Berlicki, A., & López Ariste, A., 2007b, Phys. Chromosph. Plasm. ASP Conf. Ser., 368, 253
Schmieder, B., & Pariat, E., 2007, Scholarpedia, 2, 4335 CrossRef
Severny, A.B., 1964, ARA&A, 2, 363 CrossRef
Strous, L.H., Scharmer, G., Tarbell, T.D., Title, A.M., & Zwaan, C., 1996, A&A, 306, 947
Strous, L.H., & Zwaan, C., 1999, ApJ, 527, 435 CrossRef
Titov, V.S., Priest, E.R., & Démoulin, P., 1993, A&A, 276, 564
Tortosa-Andreu, A., & Moreno-Insertis, F., 2009, A&A, 507, 949
Valori, G., Green, L.M., Démoulin, P., et al., 2011, Solar Phys., 374
Watanabe, H., Kitai, R., Okamoto, K., et al., 2008, ApJ, 684, 736 CrossRef
Xu, X.-Y., Fang, C., Ding, M.-D., & Gao, D.-H., 2011, Res. Astron. Astrophys., 11, 225 CrossRef
Yokoyama, T., & Shibata, K., 1996, PASJ, 48, 353
Zwaan, C., 1985, Solar Phys., 100, 397 CrossRef