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Auteurs principaux: Pietrow, A. G. M., Balthasar, H., Nagy, P. Váradi, Kamlah, R., Stork, A., Denker, C., Verma, M.
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2604.11650
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author Pietrow, A. G. M.
Balthasar, H.
Nagy, P. Váradi
Kamlah, R.
Stork, A.
Denker, C.
Verma, M.
author_facet Pietrow, A. G. M.
Balthasar, H.
Nagy, P. Váradi
Kamlah, R.
Stork, A.
Denker, C.
Verma, M.
contents The Fraunhofer G-band around 4304 Å is widely used as a photospheric diagnostic and is generally not expected to show signatures of chromospheric or coronal structures. However, recent amateur observations have suggested the presence of off-limb prominence emission in this spectral region. We investigate the origin of the prominence emission in the G-band to determine if this is caused by methylene (CH) or other lines in this band. We also aim to test these lines for the presence of ionization memory effects in neutral lines. We present a case study of two prominences, one obtained with a Solar Explorer (Sol'Ex) spectroheliograph and another with the high-resolution Fast Multi-Line Universal Spectrograph (FaMuLUS) camera system at the echelle spectrograph of the German Vacuum Tower Telescope (VTT). Line widths are measured for simultaneously observed neutral and ionized metal lines, allowing a comparison of thermal and non-thermal broadening components to see if these lines exhibit any ionization memory effects. We report clear prominence emission in several metal lines within the G-band, primarily from Ti II and Ca I lines, while contributions from CH molecular lines are not observed. A comparison of the simultaneously observed ionized and neutral lines reveals no clear evidence for an ionization memory effect. Since the prominence emission does not originate from CH lines, we will not call them "G-band prominences" but rather prominences in the G-band, as they are independent of the primary diagnostic in this spectral window. In addition, the absence of a clear ionization memory effect suggests that such effects may be less pronounced for weak neutral lines.
format Preprint
id arxiv_https___arxiv_org_abs_2604_11650
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Prominence signatures in the Fraunhofer G-band; Testing ionization memory with multi-line prominence diagnostics
Pietrow, A. G. M.
Balthasar, H.
Nagy, P. Váradi
Kamlah, R.
Stork, A.
Denker, C.
Verma, M.
Solar and Stellar Astrophysics
The Fraunhofer G-band around 4304 Å is widely used as a photospheric diagnostic and is generally not expected to show signatures of chromospheric or coronal structures. However, recent amateur observations have suggested the presence of off-limb prominence emission in this spectral region. We investigate the origin of the prominence emission in the G-band to determine if this is caused by methylene (CH) or other lines in this band. We also aim to test these lines for the presence of ionization memory effects in neutral lines. We present a case study of two prominences, one obtained with a Solar Explorer (Sol'Ex) spectroheliograph and another with the high-resolution Fast Multi-Line Universal Spectrograph (FaMuLUS) camera system at the echelle spectrograph of the German Vacuum Tower Telescope (VTT). Line widths are measured for simultaneously observed neutral and ionized metal lines, allowing a comparison of thermal and non-thermal broadening components to see if these lines exhibit any ionization memory effects. We report clear prominence emission in several metal lines within the G-band, primarily from Ti II and Ca I lines, while contributions from CH molecular lines are not observed. A comparison of the simultaneously observed ionized and neutral lines reveals no clear evidence for an ionization memory effect. Since the prominence emission does not originate from CH lines, we will not call them "G-band prominences" but rather prominences in the G-band, as they are independent of the primary diagnostic in this spectral window. In addition, the absence of a clear ionization memory effect suggests that such effects may be less pronounced for weak neutral lines.
title Prominence signatures in the Fraunhofer G-band; Testing ionization memory with multi-line prominence diagnostics
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2604.11650