Publication: Complexity and diffusion of magnetic flux surfaces in anisotropic turbulence
Issued Date
2014-04-10
Resource Type
ISSN
15384357
0004637X
0004637X
Other identifier(s)
2-s2.0-84897145452
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Mahidol University
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SCOPUS
Bibliographic Citation
Astrophysical Journal. Vol.785, No.1 (2014)
Suggested Citation
S. Servidio, W. H. Matthaeus, M. Wan, D. Ruffolo, A. F. Rappazzo, S. Oughton Complexity and diffusion of magnetic flux surfaces in anisotropic turbulence. Astrophysical Journal. Vol.785, No.1 (2014). doi:10.1088/0004-637X/785/1/56 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/33791
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Title
Complexity and diffusion of magnetic flux surfaces in anisotropic turbulence
Abstract
The complexity of magnetic flux surfaces is investigated analytically and numerically in static homogeneous magnetic turbulence. Magnetic surfaces are computed to large distances in magnetic fields derived from a reduced magnetohydrodynamic model. The question addressed is whether one can define magnetic surfaces over large distances when turbulence is present. Using a flux surface spectral analysis, we show that magnetic surfaces become complex at small scales, experiencing an exponential thinning that is quantified here. The computation of a flux surface is of either exponential or nondeterministic polynomial complexity, which has the conceptual implication that global identification of magnetic flux surfaces and flux exchange, e.g., in magnetic reconnection, can be intractable in three dimensions. The coarse-grained large-scale magnetic flux experiences diffusive behavior. The link between the diffusion of the coarse-grained flux and field-line random walk is established explicitly through multiple scale analysis. The Kubo number controls both large and small scale limits. These results have consequences for interpreting processes such as magnetic reconnection and field-line diffusion in astrophysical plasmas. © 2014. The American Astronomical Society. All rights reserved..