Vector Magnetic Fields of A Solar Polar Region

We study the vector magnetic fields of a solar polar region (PR) based on Solar Optical Telescope/Spectro-Polarimeter measurements. To better understand the polar magnetic properties, we compare the observed polar field with that in two solar quiet regions at the limb (QRL) and the disk center (QRD)...

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Published in	The Astrophysical journal Vol. 732; no. 1; pp. 4 - jQuery1323908968473='48'
Main Authors	Jin, Chunlan, Wang, Jingxiu
Format	Journal Article
Language	English
Published	United States IOP Publishing 01.05.2011
Subjects	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY ATMOSPHERES CHROMOSPHERE CRYOSPHERE FLUX DENSITY MAGNETIC FIELDS MAGNETIC FLUX MAGNETIC PROPERTIES MATHEMATICS PHOTOSPHERE PHYSICAL PROPERTIES POLAR REGIONS SOLAR ACTIVITY SOLAR ATMOSPHERE SOLAR CORONA SOLAR WIND STELLAR ACTIVITY STELLAR ATMOSPHERES STELLAR CORONAE STELLAR WINDS TENSORS TOPOLOGY VECTORS
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Abstract	We study the vector magnetic fields of a solar polar region (PR) based on Solar Optical Telescope/Spectro-Polarimeter measurements. To better understand the polar magnetic properties, we compare the observed polar field with that in two solar quiet regions at the limb (QRL) and the disk center (QRD), and with that in a region of a low-latitude coronal hole (CHR). The following results are discussed: (1) The average vertical flux density of PR is 16 G, while the average horizontal flux density is 91 G. If we assume that the observed polar field suffers the same amount of limb weakening in polarization measurements as the Sun's quiet region, the average unsigned flux density in the pole would be 54 G, 60% stronger than that in the CHR. (2) The kG field in the PR occupies 6.7% of the region. The magnetic filling factor in the PR is characterized by a two-peak distribution, which appears at a field strength close to 100 G and 1000 G, respectively. (3) For the network elements, a correlation holds between the vertical and horizontal flux densities, suggesting the same physical entity is manifested by the observed stronger vertical and horizontal components. (4) The ratio of the magnetic flux in the minority polarity to that in the dominant polarity is approximately 0.5, implying that only 1/3 of the magnetic flux in the PR opens to the interplanetary space. Exemplified with CHR by a quasi-linear force-free extrapolation of the observed magnetic field, we find that the photospheric open flux is not always associated with strong vertical magnetic elements.
AbstractList	We study the vector magnetic fields of a solar polar region (PR) based on Solar Optical Telescope/Spectro-Polarimeter measurements. To better understand the polar magnetic properties, we compare the observed polar field with that in two solar quiet regions at the limb (QRL) and the disk center (QRD), and with that in a region of a low-latitude coronal hole (CHR). The following results are discussed: (1) The average vertical flux density of PR is 16 G, while the average horizontal flux density is 91 G. If we assume that the observed polar field suffers the same amount of limb weakening in polarization measurements as the Sun's quiet region, the average unsigned flux density in the pole would be 54 G, 60% stronger than that in the CHR. (2) The kG field in the PR occupies 6.7% of the region. The magnetic filling factor in the PR is characterized by a two-peak distribution, which appears at a field strength close to 100 G and 1000 G, respectively. (3) For the network elements, a correlation holds between the vertical and horizontal flux densities, suggesting the same physical entity is manifested by the observed stronger vertical and horizontal components. (4) The ratio of the magnetic flux in the minority polarity to that in the dominant polarity is approximately 0.5, implying that only 1/3 of the magnetic flux in the PR opens to the interplanetary space. Exemplified with CHR by a quasi-linear force-free extrapolation of the observed magnetic field, we find that the photospheric open flux is not always associated with strong vertical magnetic elements.
Author	Jin, Chunlan Wang, Jingxiu
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BackLink	https://www.osti.gov/biblio/21574675$$D View this record in Osti.gov
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SubjectTerms	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY ATMOSPHERES CHROMOSPHERE CRYOSPHERE FLUX DENSITY MAGNETIC FIELDS MAGNETIC FLUX MAGNETIC PROPERTIES MATHEMATICS PHOTOSPHERE PHYSICAL PROPERTIES POLAR REGIONS SOLAR ACTIVITY SOLAR ATMOSPHERE SOLAR CORONA SOLAR WIND STELLAR ACTIVITY STELLAR ATMOSPHERES STELLAR CORONAE STELLAR WINDS TENSORS TOPOLOGY VECTORS
Title	Vector Magnetic Fields of A Solar Polar Region
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