Small-scale and global dynamos and the area and flux distributions of active regions, sunspot groups, and sunspots : a multi-database study
Muñoz-Jaramillo, A.; Senkpeil, R.R.; Windmueller, J.C.; Amouzou, E.C.; Longcope, D.W.; Tlatov, A.G.; Nagovitsyn, Y.A.; Pevtsov, A.A.; Chapman, G.A.; Cookson, A.M.; Yeates, A.R.; Watson, F.T.; Balmaceda, L.A.; DeLuca, E.E.; Martens, P.C.H.
Professor Anthony Yeates email@example.com
In this work, we take advantage of 11 different sunspot group, sunspot, and active region databases to characterize the area and flux distributions of photospheric magnetic structures. We find that, when taken separately, different databases are better fitted by different distributions (as has been reported previously in the literature). However, we find that all our databases can be reconciled by the simple application of a proportionality constant, and that, in reality, different databases are sampling different parts of a composite distribution. This composite distribution is made up by linear combination of Weibull and log-normal distributions—where a pure Weibull (log-normal) characterizes the distribution of structures with fluxes below (above) 1021Mx (1022Mx). Additionally, we demonstrate that the Weibull distribution shows the expected linear behavior of a power-law distribution (when extended to smaller fluxes), making our results compatible with the results of Parnell et al. We propose that this is evidence of two separate mechanisms giving rise to visible structures on the photosphere: one directly connected to the global component of the dynamo (and the generation of bipolar active regions), and the other with the small-scale component of the dynamo (and the fragmentation of magnetic structures due to their interaction with turbulent convection).
Muñoz-Jaramillo, A., Senkpeil, R., Windmueller, J., Amouzou, E., Longcope, D., Tlatov, A., …Martens, P. (2015). Small-scale and global dynamos and the area and flux distributions of active regions, sunspot groups, and sunspots : a multi-database study. Astrophysical Journal, 800(1), Article 48. https://doi.org/10.1088/0004-637x/800/1/48
|Journal Article Type||Article|
|Publication Date||Feb 1, 2015|
|Deposit Date||Jan 5, 2015|
|Publicly Available Date||Feb 27, 2015|
|Publisher||American Astronomical Society|
|Peer Reviewed||Peer Reviewed|
|Keywords||Sun: activity, Sun: magnetic fields, Sun: photosphere, Sunspots.|
|Related Public URLs||http://arxiv.org/abs/1410.6281|
Published Journal Article
© 2015. The American Astronomical Society. All rights reserved.
You might also like
Surface Flux Transport on the Sun
Spherical winding and helicity
Automated driving for global non-potential simulations of the solar corona
Eruptivity Criteria for Two-dimensional Magnetic Flux Ropes in the Solar Corona
Exploring the Origin of Stealth Coronal Mass Ejections with Magnetofrictional Simulations