LOFAR imaging of the solar corona during the 2015 March 20 solar eclipse

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Ryan , A M , Gallagher , P T , Carley , E P , Brentjens , M A , Murphy , P C , Vocks , C , Morosan , D E , Reid , H , Magdalenic , J , (AIP) , L I F A , Zucca , P , Fallows , R , Mann , G , Kerdraon , A & Halfwerk , R 2021 , ' LOFAR imaging of the solar corona during the 2015 March 20 solar eclipse ' , Astronomy & Astrophysics , vol. 648 , 43 . https://doi.org/10.1051/0004-6361/202039024

Title: LOFAR imaging of the solar corona during the 2015 March 20 solar eclipse
Author: Ryan, A. M.; Gallagher, P. T.; Carley, E. P.; Brentjens, M. A.; Murphy, P. C.; Vocks, C.; Morosan, D. E.; Reid, H.; Magdalenic, J.; (AIP), Leibniz Institut fur Astrophysik; Zucca, P.; Fallows, R.; Mann, G.; Kerdraon, A.; Halfwerk, R.
Other contributor: University of Helsinki, Space Physics Research Group

Date: 2021-04-09
Language: eng
Number of pages: 7
Belongs to series: Astronomy & Astrophysics
ISSN: 0004-6361
DOI: https://doi.org/10.1051/0004-6361/202039024
URI: http://hdl.handle.net/10138/330340
Abstract: The solar corona is a highly-structured plasma which can reach temperatures of more than similar to 2 MK. At low frequencies (decimetric and metric wavelengths), scattering and refraction of electromagnetic waves are thought to considerably increase the imaged radio source sizes (up to a few arcminutes). However, exactly how source size relates to scattering due to turbulence is still subject to investigation. The theoretical predictions relating source broadening to propagation effects have not been fully confirmed by observations due to the rarity of high spatial resolution observations of the solar corona at low frequencies. Here, the LOw Frequency ARray (LOFAR) was used to observe the solar corona at 120-180 MHz using baselines of up to similar to 3.5 km (corresponding to a resolution of similar to 1-2 ') during the partial solar eclipse of 2015 March 20. A lunar de-occultation technique was used to achieve higher spatial resolution (similar to 0.6 ') than that attainable via standard interferometric imaging (similar to 2.4 '). This provides a means of studying the contribution of scattering to apparent source size broadening. It was found that the de-occultation technique reveals a more structured quiet corona that is not resolved from standard imaging, implying scattering may be overestimated in this region when using standard imaging techniques. However, an active region source was measured to be similar to 4 ' using both de-occultation and standard imaging. This may be explained by the increased scattering of radio waves by turbulent density fluctuations in active regions, which is more severe than in the quiet Sun.
Subject: Sun
radio radiation
115 Astronomy, Space science

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