TY - JOUR
T1 - Enhancing Coronal Structures with the Fourier Normalizing-radial-graded Filter
AU - Druckmüllerová, Hana
AU - Morgan, Huw
AU - Habbal, Shadia Rifai
PY - 2011/8/1
Y1 - 2011/8/1
N2 - Images of the corona have a high dynamic range which is excellent for
quantitative photometric analysis. To understand the processes governing
the solar corona, it is essential to have information about the absolute
brightness as well as the underlying structure. However, due to the
steep radial gradient of brightness in the images, and to the fact that
structures closer to the solar disk have higher contrast than structures
further from the disk, human vision cannot view the intricate structure
of the corona in such images. The recently developed
normalizing-radial-graded filter (NRGF) is an effective way for
revealing the coronal structure. In this work, we present a more
adaptive filter inspired by the NRGF, which we call the Fourier
normalizing-radial-graded filter (FNRGF). It approximates the local
average and the local standard deviation by a finite Fourier series.
This method enables the enhancement of finer details, especially in
regions of lower contrast. We also show how the influence of additive
noise is reduced by a modification to the FNRGF. To illustrate the power
of the method, the FNRGF is applied to images of emission from coronal
forbidden lines observed during the 2010 July 11 total solar eclipse. It
is also successfully applied to space-based observations of the low
corona in the extreme ultraviolet and to white light coronagraph
observations, thus demonstrating the validity of the FNRGF as a new tool
that will help the interpretation of the information embedded in most
types of coronal images.
AB - Images of the corona have a high dynamic range which is excellent for
quantitative photometric analysis. To understand the processes governing
the solar corona, it is essential to have information about the absolute
brightness as well as the underlying structure. However, due to the
steep radial gradient of brightness in the images, and to the fact that
structures closer to the solar disk have higher contrast than structures
further from the disk, human vision cannot view the intricate structure
of the corona in such images. The recently developed
normalizing-radial-graded filter (NRGF) is an effective way for
revealing the coronal structure. In this work, we present a more
adaptive filter inspired by the NRGF, which we call the Fourier
normalizing-radial-graded filter (FNRGF). It approximates the local
average and the local standard deviation by a finite Fourier series.
This method enables the enhancement of finer details, especially in
regions of lower contrast. We also show how the influence of additive
noise is reduced by a modification to the FNRGF. To illustrate the power
of the method, the FNRGF is applied to images of emission from coronal
forbidden lines observed during the 2010 July 11 total solar eclipse. It
is also successfully applied to space-based observations of the low
corona in the extreme ultraviolet and to white light coronagraph
observations, thus demonstrating the validity of the FNRGF as a new tool
that will help the interpretation of the information embedded in most
types of coronal images.
UR - http://hdl.handle.net/2160/9115
U2 - 10.1088/0004-637X/737/2/88
DO - 10.1088/0004-637X/737/2/88
M3 - Article
SN - 0004-637X
VL - 737
SP - 88
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
ER -