论文信息 - A New Technique for a Routine Azimuth Disambiguation of Solar Vector Magnetograms

A New Technique for a Routine Azimuth Disambiguation of Solar Vector Magnetograms

We introduce a nonpotential magnetic field calculation (NPFC) technique to perform azimuth disambiguation in solar vector magnetograms. It is shown that resolving the 180° ambiguity would be a numerically fully determined problem if the vertical electric current density was known a priori. Since this is not the case, we enforce a minimum-magnitude current density solution. The NPFC disambiguation is otherwise assumption-free, with the quality of the results depending on the quality of the measurements. The NPFC method first infers the nonpotential magnetic field component responsible for the assumed vertical currents and then determines the vertical magnetic field whose potential extrapolation, added to the nonpotential field, best reproduces the observationally inferred horizontal magnetic field. The technique is fast, effective, and physically sound, so it may be instrumental in a routine, real-time, disambiguation of future space-borne solar vector magnetograms.

Manolis K. Georgoulis | M. Georgoulis

[1] M. Hagyard,et al. Vector magnetic field evolution, energy storage, and associated photospheric velocity shear within a flare-productive active region , 1982 .

[2] G. A. Gary,et al. Reduction, analysis, and properties of electric current systems in solar active regions , 1995 .

[3] R. Canfield,et al. Is the solar chromospheric magnetic field force-free? , 1995 .

[4] G. Allen Gary,et al. Transformation of vector magnetograms and the problems associated with the effects of perspective and the azimuthal ambiguity , 1990 .

[5] J. Chae. Observational Determination of the Rate of Magnetic Helicity Transport through the Solar Surface via the Horizontal Motion of Field Line Footpoints , 2001 .

[6] V. Pillet,et al. The Possible Ascent of a Closed Magnetic System through the Photosphere , 1995 .

[7] M. Georgoulis,et al. Vertical Lorentz Force and Cross-Field Currents in the Photospheric Magnetic Fields of Solar Active Regions , 2004 .

[8] R. Canfield,et al. The imaging vector magnetograph at Haleakala , 1996 .

[9] R. Canfield,et al. The morphology of flare phenomena, magnetic fields, and electric currents in active regions. I - Introduction and methods , 1993 .

[10] Thomas R. Metcalf,et al. Resolving the 180-degree ambiguity in vector magnetic field measurements: The ‘minimum’ energy solution , 1994 .

[11] M. Georgoulis,et al. On the Resolution of the Azimuthal Ambiguity in Vector Magnetograms of Solar Active Regions , 2004 .