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Autori principali: Boe, Benjamin, Habbal, Shadia, Druckmüller, Miloslav, Štarha, Pavel, Štarha, Matěj, Hoderová, Jana, Constantinou, Sage, Ayars, Eric, Casillas, Daniell
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.01068
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author Boe, Benjamin
Habbal, Shadia
Druckmüller, Miloslav
Štarha, Pavel
Štarha, Matěj
Hoderová, Jana
Constantinou, Sage
Ayars, Eric
Casillas, Daniell
author_facet Boe, Benjamin
Habbal, Shadia
Druckmüller, Miloslav
Štarha, Pavel
Štarha, Matěj
Hoderová, Jana
Constantinou, Sage
Ayars, Eric
Casillas, Daniell
contents We present narrowband observations of the Fe XIV (530.3 nm), Fe X (637.4 nm), and Fe XI (789.2 nm) coronal emission lines from the 2023 April 20 Total Solar Eclipse in Australia. We deployed pairs of telescopes for each emission line that were equipped with narrowband filters centered on, and several nanometers away from, the center wavelengths of the lines. The secondary continuum telescopes were used to measure and remove the combined continuum K- (electron) and F- (dust) corona, which dominate coronal emission at optical and infrared wavelengths. Significant emission was detected from all three lines from 1.03 solar radii (Rs) continuously outward to at least 6 Rs. The brightness of the lines and continuum are absolutely calibrated to the solar disk, and are validated by a comparison with LASCO-C2 observations made at the same time. Using these observations, we inferred the line emission ratios resolved throughout the middle-corona (defined as 1.5 to 6 Rs) for the first time. These line ratios are a probe of the electron temperature, which have important implications for constraining models of coronal heating and the characterization of solar wind formation, yet these emission lines have scarcely been quantified beyond 3 Rs in the corona. This study demonstrates the enduring potential of eclipse observations for coronal physics and suggests that future spacecraft missions could observe these lines farther out than has been attempted previously.
format Preprint
id arxiv_https___arxiv_org_abs_2512_01068
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The 2023 Australian Total Solar Eclipse: Line Emission of Fe XIV, Fe X and Fe XI out to 6 solar radii
Boe, Benjamin
Habbal, Shadia
Druckmüller, Miloslav
Štarha, Pavel
Štarha, Matěj
Hoderová, Jana
Constantinou, Sage
Ayars, Eric
Casillas, Daniell
Solar and Stellar Astrophysics
We present narrowband observations of the Fe XIV (530.3 nm), Fe X (637.4 nm), and Fe XI (789.2 nm) coronal emission lines from the 2023 April 20 Total Solar Eclipse in Australia. We deployed pairs of telescopes for each emission line that were equipped with narrowband filters centered on, and several nanometers away from, the center wavelengths of the lines. The secondary continuum telescopes were used to measure and remove the combined continuum K- (electron) and F- (dust) corona, which dominate coronal emission at optical and infrared wavelengths. Significant emission was detected from all three lines from 1.03 solar radii (Rs) continuously outward to at least 6 Rs. The brightness of the lines and continuum are absolutely calibrated to the solar disk, and are validated by a comparison with LASCO-C2 observations made at the same time. Using these observations, we inferred the line emission ratios resolved throughout the middle-corona (defined as 1.5 to 6 Rs) for the first time. These line ratios are a probe of the electron temperature, which have important implications for constraining models of coronal heating and the characterization of solar wind formation, yet these emission lines have scarcely been quantified beyond 3 Rs in the corona. This study demonstrates the enduring potential of eclipse observations for coronal physics and suggests that future spacecraft missions could observe these lines farther out than has been attempted previously.
title The 2023 Australian Total Solar Eclipse: Line Emission of Fe XIV, Fe X and Fe XI out to 6 solar radii
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2512.01068