Turbulence In The Solar Atmosphere: Manifestations And Diagnostics Via Solar Image Processing
暂无分享,去创建一个
[1] I. Prigogine,et al. Exploring Complexity: An Introduction , 1989 .
[2] Thierry Emonet,et al. On the Interaction between Convection and Magnetic Fields , 2003 .
[3] Michael Turmon,et al. Statistical Pattern Recognition for Labeling Solar Active Regions: Application to SOHO/MDI Imagery , 2002 .
[4] Manolis K. Georgoulis,et al. Statistics, Morphology, and Energetics of Ellerman Bombs , 2002 .
[5] J. Lawrence. Diffusion of magnetic flux elements on a fractal geometry , 1991 .
[6] U. Frisch. Turbulence: The Legacy of A. N. Kolmogorov , 1996 .
[7] V. Abramenko,et al. Distribution of the Magnetic Flux in Elements of the Magnetic Field in Active Regions , 2005 .
[8] Karen L. Harvey,et al. Properties and emergence patterns of bipolar active regions , 1993 .
[9] Coronal Disturbances and Their Terrestrial Effects , 1983 .
[10] P. Mein,et al. On the nature of the chromospheric fine structure - II. Intensity and velocity oscillations of dark mottles and grains , 2004 .
[11] Toshifumi Shimizu,et al. Energetics and Occurrence Rate of Active-Region Transient Brightenings and Implications for the Heating of the Active-Region Corona , 1995 .
[12] Benoit B. Mandelbrot,et al. Fractal Geometry of Nature , 1984 .
[13] J. Chae. Observational Determination of the Rate of Magnetic Helicity Transport through the Solar Surface via the Horizontal Motion of Field Line Footpoints , 2001 .
[14] Robert H. Kraichnan,et al. Inertial‐Range Spectrum of Hydromagnetic Turbulence , 1965 .
[15] D. Rust,et al. Evidence for Helically Kinked Magnetic Flux Ropes in Solar Eruptions , 1996 .
[16] S. Krantz. Fractal geometry , 1989 .
[17] G. Stenborg,et al. A wavelet packets equalization technique to reveal the multiple spatial-scale nature of coronal structures , 2003 .
[18] D. Rust. Coronal disturbances and their terrestrial effects , 1983 .
[19] S. McIntosh,et al. Characteristic Scales of Chromospheric Oscillation Wave Packets , 2004 .
[20] D. Biskamp,et al. Dynamics of Decaying Two-Dimensional Magnetohydrodynamic Turbulence , 1988 .
[21] K. Mellanby. How Nature works , 1978, Nature.
[22] N. Meunier. Large-Scale Dynamics of Active Regions and Small Photospheric Magnetic Features , 1999 .
[23] R. Canfield,et al. The imaging vector magnetograph at Haleakala , 1996 .
[24] N. Meunier. Complexity of magnetic structures: Flares and cycle phase dependence , 2004 .
[25] T. Forbes. A review on the genesis of coronal mass ejections , 2000 .
[26] Alexander Ruzmaikin,et al. Multifractal measure of the solar magnetic field , 1993 .
[27] S. Redner,et al. Introduction To Percolation Theory , 2018 .
[28] James M. McTiernan,et al. Solar flares and avalanches in driven dissipative systems , 1993 .
[29] M. Velli,et al. Statistical Properties of Magnetic Activity in the Solar Corona , 1998 .
[30] M. Velli,et al. Energy Release in a Turbulent Corona , 1996 .
[31] Jean-Pierre Delaboudiniere,et al. SOHO/EIT Observations of the 1997 April 7 Coronal Transient: Possible Evidence of Coronal Moreton Waves , 1999 .
[32] Dieter Schmitt,et al. Does the butterfly diagram indicate a solar flux-transport dynamo? , 2004 .
[33] Loukas Vlahos,et al. Variability of the occurrence frequency of solar flares and the statistical flare , 1998 .
[34] P. Preka-Papadema,et al. On signal–noise decomposition of time‐series using the continuous wavelet transform: application to sunspot index , 2003 .
[35] E. Lu,et al. Avalanches and the Distribution of Solar Flares , 1991 .
[36] R. Muller,et al. Structure of the solar granulation , 1986 .
[37] Dynamo action in turbulent flows , 2003, astro-ph/0306069.
[38] L. Milano,et al. Coronal Heating Distribution Due to Low-Frequency, Wave-driven Turbulence , 2002, astro-ph/0204347.
[39] Paul Charbonneau,et al. Avalanche models for solar flares (Invited Review) , 2001 .
[40] Sam Krucker,et al. Energy Distribution of Microevents in the Quiet Solar Corona , 2002 .
[41] V. Yurchyshyn,et al. Magnetic Power Spectra Derived from Ground and Space Measurements of the Solar Magnetic Fields , 2001 .
[42] H. G. E. Hentschel,et al. The infinite number of generalized dimensions of fractals and strange attractors , 1983 .
[43] Tang,et al. Self-Organized Criticality: An Explanation of 1/f Noise , 2011 .
[44] A. Ruzmaikin,et al. On the Multifractal Distribution of Solar Magnetic Fields , 1996 .
[45] D. Gary,et al. Flare-related Magnetic Anomaly with a Sign Reversal , 2003 .
[46] F. Auchère,et al. On the nature of EIT waves, EUV dimmings and their link to CMEs , 2004 .
[47] Clare E. Parnell,et al. Nanoflare Statistics from First Principles: Fractal Geometry and Temperature Synthesis , 2002 .
[48] Haimin Wang,et al. The Formation of a Prominence in Active Region NOAA 8668. I. SOHO/MDI Observations of Magnetic Field Evolution , 2001 .
[49] Loukas Vlahos,et al. Coronal Heating by Nanoflares and the Variability of the Occurrence Frequency in Solar Flares , 1996 .
[50] Eugene N. Parker,et al. Cosmical Magnetic Fields: Their Origin and their Activity , 2019 .
[51] Philip R. Goode,et al. Scaling Behavior of Structure Functions of the Longitudinal Magnetic Field in Active Regions on the Sun , 2002 .
[52] Philip R. Goode,et al. Signature of an Avalanche in Solar Flares as Measured by Photospheric Magnetic Fields , 2003 .
[53] F. Kneer,et al. On the fractal dimension of small-scale magnetic structures in the Sun , 2003 .
[54] Manolis K. Georgoulis,et al. Microscale Structures on the Quiet Sun and Coronal Heating , 2000 .
[55] R. Erdélyi,et al. Intensity Oscillations in the Upper Transition Region above Active Region Plage , 2003 .
[56] M. Georgoulis,et al. Extended instability criteria in isotropic and anisotropic energy avalanches , 1995 .
[57] A. Ruzmaikin,et al. MULTIFRACTAL MODELS OF SMALL-SCALE SOLAR MAGNETIC FIELDS , 1994 .
[58] Loukas Vlahos,et al. On the Self-Similarity of Unstable Magnetic Discontinuities in Solar Active Regions , 2004 .
[59] H. Hudson. Solar flares, microflares, nanoflares, and coronal heating , 1991 .