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Main Authors: Broeck, G. Vanden, Bechet, S., Rauw, G., Clette, F.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.11335
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author Broeck, G. Vanden
Bechet, S.
Rauw, G.
Clette, F.
author_facet Broeck, G. Vanden
Bechet, S.
Rauw, G.
Clette, F.
contents Chromospheric plages are distributed between mid-latitude and the Equator and never close to the Poles. Therefore, we suspect that the inclination angle of the solar rotation axis has an impact on the observable chromospheric emission. We reproduce the solar images from any inclination in order to study the effect of the inclination axis on the solar variability by using direct observations of the Sun in the Ca II K line. More than 2700 days of observations since the beginning of the Ca II K observations with USET, in July 2012, were used in our analysis. For each observation day, we produce synoptic maps to map the entire solar surface during a full solar rotation. Then by choosing a given inclination, we generate solar-disk views, representing the segmented brightest structures of the chromosphere (plages and enhanced network), as seen under this inclination. The area fraction are extracted from the masks for each inclination and we compare the evolution of those time series to quantify the impact of the inclination angle. We find a variation of the area fraction between an Equator-on view and a Pole-on view. Our results show an important impact of the viewing angle on the detection of modulation due to the solar rotation. With the dense temporal sampling of USET data, the solar rotation is detectable up to an inclination of about $|i| = 70^{\circ}$ and the solar-cycle modulation is clearly detected for all inclinations, though with a reduced amplitude in polar views. When applying a sparse temporal sampling typical for time series of solar-like stars, the rotational modulation is no longer detected, whatever the inclination. On the other hand, we find that the activity-cycle modulation remains detectable as long as the sampling contains at least 20 observations per year and the cycle amplitude reaches at least 30\% of the solar-cycle amplitude.
format Preprint
id arxiv_https___arxiv_org_abs_2410_11335
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle How does the solar chromospheric activity look like under different inclination angles?
Broeck, G. Vanden
Bechet, S.
Rauw, G.
Clette, F.
Solar and Stellar Astrophysics
Chromospheric plages are distributed between mid-latitude and the Equator and never close to the Poles. Therefore, we suspect that the inclination angle of the solar rotation axis has an impact on the observable chromospheric emission. We reproduce the solar images from any inclination in order to study the effect of the inclination axis on the solar variability by using direct observations of the Sun in the Ca II K line. More than 2700 days of observations since the beginning of the Ca II K observations with USET, in July 2012, were used in our analysis. For each observation day, we produce synoptic maps to map the entire solar surface during a full solar rotation. Then by choosing a given inclination, we generate solar-disk views, representing the segmented brightest structures of the chromosphere (plages and enhanced network), as seen under this inclination. The area fraction are extracted from the masks for each inclination and we compare the evolution of those time series to quantify the impact of the inclination angle. We find a variation of the area fraction between an Equator-on view and a Pole-on view. Our results show an important impact of the viewing angle on the detection of modulation due to the solar rotation. With the dense temporal sampling of USET data, the solar rotation is detectable up to an inclination of about $|i| = 70^{\circ}$ and the solar-cycle modulation is clearly detected for all inclinations, though with a reduced amplitude in polar views. When applying a sparse temporal sampling typical for time series of solar-like stars, the rotational modulation is no longer detected, whatever the inclination. On the other hand, we find that the activity-cycle modulation remains detectable as long as the sampling contains at least 20 observations per year and the cycle amplitude reaches at least 30\% of the solar-cycle amplitude.
title How does the solar chromospheric activity look like under different inclination angles?
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2410.11335