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Helicity of solar magnetic field from observations

Published online by Cambridge University Press:  26 February 2010

Hongqi Zhang*
Affiliation:
National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012 email: hzhang@bao.ac.cn
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Abstract

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The helicity is an important quantity to present the basic topological configuration of magnetic field transferred form the solar subatmosphere into the interplanetary space. In this paper, we present the observational solar magnetic field and the relationship with the magnetic helicity.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2010

References

Abramenko, V. I., Wang, T., & Yurchishin, V. B. 1996, Solar Phys., 168, 75CrossRefGoogle Scholar
Bao, S. & Zhang, H. 1998 Astrophys. J, 496, L43Google Scholar
Bao, S. D., Ai, G. X., & Zhang, H. Q. 2000, JApA, 21, 303Google Scholar
Berger, M. A. & Field, G. B. 1984, JFM 147, 133Google Scholar
Berger, M. & Ruzmaikin, A. 2000, JGR, 10510481Google Scholar
Brandenburg, A., Dobler, W., & Subramanian, K. 2002, AN, 323, 99Google Scholar
Brandenburg, A. & Subramanian, K. 2005, PhR, 417, 1Google Scholar
Chae, J. 2001, Astrophys. J, 560, L95Google Scholar
Chatterjee, P., Nandy, D., & Choudhuri, A. R. 2004, A&A, 427, 1019Google Scholar
Chen, J, Bao, S., & Zhang, H. 2007, Solar Phys., 242, 65CGoogle Scholar
Choudhuri, A. R., Chatterjee, P., & Nandy, D. 2004 Astrophys. J, 615, L57CrossRefGoogle Scholar
Démoulin, P. & Berger, M. A. 2003, Solar Phys., 215, 203CrossRefGoogle Scholar
Ding, Y. J., Hong, Q. F., & Wang, H. Z. 1987, Solar Phys., 107, 221Google Scholar
Gao, Y., Zhang, H., & Zhao, J. 2009, MNRAS, 394, L79Google Scholar
Green, L. M., López Fuentes, M. C., Mandrini, C. H., Démoulin, P., Van Driel-Gesztelyi, L., & Culhane, J. L. 2002, Solar Phys., 208, 43Google Scholar
Green, L. M., Kliem, B., Török, T., van Driel-Gesztelyi, L., & Attrill, G. D. R. 2007, Solar Phys., 246, 365CrossRefGoogle Scholar
Hagino, M. & Sakurai, T. 2004, PASJ, 56, 831Google Scholar
Hagino, M. & Sakurai, T. 2005, PASJ, 57, 481Google Scholar
Hale, G. E., Ellerman, F., Nicholsin, S. B., & Joy, A. H. 1919, Astrophys. J., 49, 153Google Scholar
Jiang, J., Choudhuri, A. R., & Wang, J. 2007, Solar Phys., 245, 19Google Scholar
Kazachenko, M. D., Canfield, R. C., Longcope, D. W., & Qiu, J. 2009, Astrophys. J, 704, 1146CrossRefGoogle Scholar
Keinigs, R. K. 1983, PhFl, 26, 2558Google Scholar
Keinigs, R. & Gerwin, Richard A. 1986, IEEE Transactions, 14, Issue 6, 858Google Scholar
Kleeorin, N. & Rogachevskii, I. 1999, PhRvE, 59, 6724Google Scholar
Kleeorin, N., Kuzanyan, K., Moss, D., Rogachevskii, I., Sokoloff, D., & Zhang, H. 2003, A&A, 409, 1097Google Scholar
Kuzanyan, K. M., Lamburt, V. G., Zhang, H., & Bao, S. 2003, ChJAA, 3, 257Google Scholar
Kuzanyan, K. M., Pipin, V. V., & Zhang, H. 2007, AdSpR, 39, 1694Google Scholar
LaBonte, B. J., Georgoulis, M. K., & Rust, D. M. 2007, Astrophys. J, 671, 955Google Scholar
Liu, Y. & Zhang, H. Q. 2002, A&A, 386, 646Google Scholar
Liu, J. & Zhang, H. 2006, Solar Phys., 234, 21CrossRefGoogle Scholar
Longcope, D. W., Fisher, G. H., & Pevtsov, A. A. 1998, Astrophys. J, 507, 417Google Scholar
López Fuentes, M. C., Démoulin, P., Mandrini, C. H., & van Driel-Gesztelyi, L. 2000, Astrophys. J, 544, 540CrossRefGoogle Scholar
Moffatt, H. K.Magnetic field generation in electrically conducting fluids, Cambridge, England, Cambridge University Press, 1978, 353Google Scholar
Nindos, A. & Zhang, H. 2002, Astrophys. J, 573, L133Google Scholar
Nindos, A., Zhang, J., & Zhang, H. 2003, Astrophys. J, 594, 1033Google Scholar
Parker, E. 1955, Astrophys. J, 122, 293.CrossRefGoogle Scholar
Pevtsov, A. A. 2000, Astrophys. J, 531, 553CrossRefGoogle Scholar
Pevtsov, A. A., Canfield, R. C., & Metcalf, T. R. 1995, Astrophys. J, 440, L109Google Scholar
Pevtsov, A. A. & Latushko, S. M. 2000, Astrophys. J, 528, 999Google Scholar
Pevtsov, A. A., Dun, J. P., & Zhang, H. 2006, Solar Phys., 234, 203CrossRefGoogle Scholar
Pevtsov, A. A., Canfield, R. C., Sakurai, T., & Hagino, M. 2008, Astrophys. J, 677, 719Google Scholar
Pouquet, A., Frisch, U., & Leorat, J. 1976, JFM, 77, 321Google Scholar
Rust, D. M. & Kumar, A. 1996, Astrophys. J, 464, L199Google Scholar
Rüdiger, G., Pipin, V. V., & Belvedére, G. 2001, Solar Phys., 198, 241Google Scholar
Seehafer, N. 1990, Solar Phys., 125, 219Google Scholar
Seehafer, N. 1994, A&A, 284, 593Google Scholar
Su, J. T., Sakurai, T., Suematsu, Y., Hagino, M., & Liu, Y. 2009, Astrophys. J, 697, L103CrossRefGoogle Scholar
Taylor, J. B. 1986, RvMP, 58, 741Google Scholar
Tian, L., Bao, S., Zhang, H., & Wang, H. 2001, A&A, 374, 294Google Scholar
Tian, L. & Alexander, D. 2009, Astrophys. J, 695, 1012CrossRefGoogle Scholar
Wang, J. 1996, Solar Phys., 163, 319Google Scholar
Woltjer, L. 1958, PNAS, 44, 489CrossRefGoogle Scholar
Xu, H., Gao, Y., Zhang, H., Sakurai, T., Pevtsov, A. A., & Sokoloff, D. 2007, AdSpR, 39, 1715Google Scholar
Xu, H., Gao, Y., Popova, E. P., Nefedov, S. N., Zhang, H., & Sokoloff, D. D. 2009, ARep, 53, 160Google Scholar
Yang, S., Zhang, H., & Büchner, J. 2009, A&A 502, 333Google Scholar
Yeates, A. R., Mackay, D. H., & van Ballegooijen, A. A. 2008, Astrophys. J, 680, L165CrossRefGoogle Scholar
Yokoyama, M. & Masuda, S. 2009, Solar Phys., 254, 285Google Scholar
Zhang, H. 2001, MNRAS, 326, 57Google Scholar
Zhang, H. 2006a, ChJAA, 6, 96Google Scholar
Zhang, H. & Bao, S. 1998, A&A, 339, 880Google Scholar
Zhang, H., Sokoloff, D., Rogachevskii, I., Moss, D., Lamburt, V., Kuzanyan, K., & Kleeorin, N. 2006, MNRAS, 365, 276CrossRefGoogle Scholar
Zhang, M. 2006b, Astrophys. J, 646, L85Google Scholar
Zhang, M., Flyer, N., & Low, B. C. 2006, Astrophys. J, 644, 575Google Scholar
Zhang, Y., Liu, J., & Zhang, H. 2008, Solar Phys., 247, 39Google Scholar