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Autori principali: Delgado, David Afonso, Alemán, Tanausú del Pino, Bueno, Javier Trujillo, Ishikawa, Ryohko, Ballester, Ernest Alsina, McKenzie, David E., Belluzzi, Luca, Bethge, Christian, Kobayashi, Ken, Okamoto, Takenori J., Rachmeler, Laurel A., Song, Donguk, Śtěpán, Jiří, de Pontieu, Bart, Kobelski, Adam R., Vigil, Genevieve D., Auchère, Frédéric, Kano, Ryouhei, Winebarger, Amy
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.14347
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author Delgado, David Afonso
Alemán, Tanausú del Pino
Bueno, Javier Trujillo
Ishikawa, Ryohko
Ballester, Ernest Alsina
McKenzie, David E.
Belluzzi, Luca
Bethge, Christian
Kobayashi, Ken
Okamoto, Takenori J.
Rachmeler, Laurel A.
Song, Donguk
Śtěpán, Jiří
de Pontieu, Bart
Kobelski, Adam R.
Vigil, Genevieve D.
Auchère, Frédéric
Kano, Ryouhei
Winebarger, Amy
author_facet Delgado, David Afonso
Alemán, Tanausú del Pino
Bueno, Javier Trujillo
Ishikawa, Ryohko
Ballester, Ernest Alsina
McKenzie, David E.
Belluzzi, Luca
Bethge, Christian
Kobayashi, Ken
Okamoto, Takenori J.
Rachmeler, Laurel A.
Song, Donguk
Śtěpán, Jiří
de Pontieu, Bart
Kobelski, Adam R.
Vigil, Genevieve D.
Auchère, Frédéric
Kano, Ryouhei
Winebarger, Amy
contents The Chromospheric LAyer SpectroPolarimeter missions, CLASP2 and CLASP2.1, demonstrated that the near-UV spectral region between 279.30 and 280.68 nm is suitable for studying the magnetism of the solar chromosphere. In particular, the spectropolarimetric observations in the Mg II h and k resonant doublet, Mn I 279.91 and 280.19 nm resonant lines, and Fe II 279.79 and 280.66 nm lines acquired by these suborbital space experiments have been proven useful for inferring the magnetic field stratification in the solar chromosphere. However, several lines of the CLASP2/2.1 spectral region with significant circular polarization signals had remained unexplored. After identifying two Ni I (279.95 and 280.59 nm), one Mn II (280.62 nm), and one Fe I (280.53 nm) lines, here we apply the Weak Field Approximation (WFA) to the spectropolarimetric observations of active region plages by CLASP2 and CLASP2.1. By comparing the results with previous studies, we are able to estimate the formation heights of these CLASP2/2.1 additional spectral lines and to demonstrate their suitability to determine the magnetic field stratification from the photosphere to the upper chromosphere.
format Preprint
id arxiv_https___arxiv_org_abs_2508_14347
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Determining the magnetic field of active region plages using the whole CLASP2/2.1 spectral window
Delgado, David Afonso
Alemán, Tanausú del Pino
Bueno, Javier Trujillo
Ishikawa, Ryohko
Ballester, Ernest Alsina
McKenzie, David E.
Belluzzi, Luca
Bethge, Christian
Kobayashi, Ken
Okamoto, Takenori J.
Rachmeler, Laurel A.
Song, Donguk
Śtěpán, Jiří
de Pontieu, Bart
Kobelski, Adam R.
Vigil, Genevieve D.
Auchère, Frédéric
Kano, Ryouhei
Winebarger, Amy
Solar and Stellar Astrophysics
The Chromospheric LAyer SpectroPolarimeter missions, CLASP2 and CLASP2.1, demonstrated that the near-UV spectral region between 279.30 and 280.68 nm is suitable for studying the magnetism of the solar chromosphere. In particular, the spectropolarimetric observations in the Mg II h and k resonant doublet, Mn I 279.91 and 280.19 nm resonant lines, and Fe II 279.79 and 280.66 nm lines acquired by these suborbital space experiments have been proven useful for inferring the magnetic field stratification in the solar chromosphere. However, several lines of the CLASP2/2.1 spectral region with significant circular polarization signals had remained unexplored. After identifying two Ni I (279.95 and 280.59 nm), one Mn II (280.62 nm), and one Fe I (280.53 nm) lines, here we apply the Weak Field Approximation (WFA) to the spectropolarimetric observations of active region plages by CLASP2 and CLASP2.1. By comparing the results with previous studies, we are able to estimate the formation heights of these CLASP2/2.1 additional spectral lines and to demonstrate their suitability to determine the magnetic field stratification from the photosphere to the upper chromosphere.
title Determining the magnetic field of active region plages using the whole CLASP2/2.1 spectral window
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2508.14347