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Autori principali: Berretti, M., Stangalini, M., Verth, G., Jafarzadeh, S., Jess, D. B., Berrilli, F., Grant, S. D. T., Duckenfield, T., Fedun, V.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.03950
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author Berretti, M.
Stangalini, M.
Verth, G.
Jafarzadeh, S.
Jess, D. B.
Berrilli, F.
Grant, S. D. T.
Duckenfield, T.
Fedun, V.
author_facet Berretti, M.
Stangalini, M.
Verth, G.
Jafarzadeh, S.
Jess, D. B.
Berrilli, F.
Grant, S. D. T.
Duckenfield, T.
Fedun, V.
contents It is well known that the dominant frequency of oscillations in the solar photosphere is $\approx$3 mHz, which is the result of global resonant modes pertaining to the whole stellar structure. However, analyses of the horizontal motions of nearly 1 million photospheric magnetic elements spanning the entirety of solar cycle 24 have revealed an unexpected dominant frequency, $\approx$5 mHz, a frequency typically synonymous with the chromosphere. Given the distinctly different physical properties of the magnetic elements examined in our statistical sample, when compared to largely quiescent solar plasma where $\approx$3 mHz frequencies are omnipresent, we argue that the dominant $\approx$5 mHz frequency is not caused by the buffeting of magnetic elements, but instead is due to the nature of the underlying oscillatory driver itself. This novel result was obtained by exploiting the unmatched spatial and temporal coverage of magnetograms acquired by the Helioseismic and Magnetic Imager (HMI) on board NASA's Solar Dynamics Observatory (SDO). Our findings provide a timely avenue for future exploration of the magnetic connectivity between sub-photospheric, photospheric, and chromospheric layers of the Sun's dynamic atmosphere.
format Preprint
id arxiv_https___arxiv_org_abs_2407_03950
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Unexpected frequency of horizontal oscillations of magnetic structures in the solar photosphere
Berretti, M.
Stangalini, M.
Verth, G.
Jafarzadeh, S.
Jess, D. B.
Berrilli, F.
Grant, S. D. T.
Duckenfield, T.
Fedun, V.
Solar and Stellar Astrophysics
It is well known that the dominant frequency of oscillations in the solar photosphere is $\approx$3 mHz, which is the result of global resonant modes pertaining to the whole stellar structure. However, analyses of the horizontal motions of nearly 1 million photospheric magnetic elements spanning the entirety of solar cycle 24 have revealed an unexpected dominant frequency, $\approx$5 mHz, a frequency typically synonymous with the chromosphere. Given the distinctly different physical properties of the magnetic elements examined in our statistical sample, when compared to largely quiescent solar plasma where $\approx$3 mHz frequencies are omnipresent, we argue that the dominant $\approx$5 mHz frequency is not caused by the buffeting of magnetic elements, but instead is due to the nature of the underlying oscillatory driver itself. This novel result was obtained by exploiting the unmatched spatial and temporal coverage of magnetograms acquired by the Helioseismic and Magnetic Imager (HMI) on board NASA's Solar Dynamics Observatory (SDO). Our findings provide a timely avenue for future exploration of the magnetic connectivity between sub-photospheric, photospheric, and chromospheric layers of the Sun's dynamic atmosphere.
title Unexpected frequency of horizontal oscillations of magnetic structures in the solar photosphere
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2407.03950