A NEW METHOD TO QUANTIFY AND REDUCE THE NET PROJECTION ERROR IN WHOLE-SOLAR-ACTIVE-REGION PARAMETERS MEASURED FROM VECTOR MAGNETOGRAMS

被引:14
|
作者
Falconer, David A. [1 ,2 ]
Tiwari, Sanjiv K. [1 ]
Moore, Ronald L. [1 ,2 ]
Khazanov, Igor [2 ,3 ]
机构
[1] NASA, Marshall Space Flight Ctr, Huntsville, AL 35812 USA
[2] Univ Alabama Huntsville, Ctr Space Plasma & Aeron Res, Huntsville, AL 35899 USA
[3] Archarithms Inc, Huntsville, AL 35801 USA
关键词
Sun: activity; Sun: magnetic fields; Sun: photosphere; MAGNETIC-FIELD DATA;
D O I
10.3847/2041-8213/833/2/L31
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Projection errors limit the use of vector magnetograms of active regions (ARs) far from the disk center. In this Letter, for ARs observed up to 60 degrees from the disk center, we demonstrate a method for measuring and reducing the projection error in the magnitude of any whole-AR parameter that is derived from a vector magnetogram that has been deprojected to the disk center. The method assumes that the center-to-limb curve of the average of the parameter's absolute values, measured from the disk passage of a large number of ARs and normalized to each AR's absolute value of the parameter at central meridian, gives the average fractional projection error at each radial distance from the disk center. To demonstrate the method, we use a large set of large-flux ARs and apply the method to a whole-AR parameter that is among the simplest to measure: whole-AR magnetic flux. We measure 30,845 SDO/Helioseismic and Magnetic Imager vector magnetograms covering the disk passage of 272 large-flux ARs, each having whole-AR flux > 10(22) Mx. We obtain the center-to-limb radial-distance run of the average projection error in measured whole-AR flux from a Chebyshev fit to the radial-distance plot of the 30,845 normalized measured values. The average projection error in the measured whole-AR flux of an AR at a given radial distance is removed by multiplying the measured flux by the correction factor given by the fit. The correction is important for both the study of the evolution of ARs and for improving the accuracy of forecasts of an AR's major flare/coronal mass ejection productivity.
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