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Main Authors: Bastian, T. S., Alissandrakis, C., Nindos, A., Shimojo, M., White, S. M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.05448
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author Bastian, T. S.
Alissandrakis, C.
Nindos, A.
Shimojo, M.
White, S. M.
author_facet Bastian, T. S.
Alissandrakis, C.
Nindos, A.
Shimojo, M.
White, S. M.
contents We report observations of solar spicules at millimeter wavelengths (mm-$λ$) using the Atacama Large Millimeter/submillimeter Array (ALMA). These are supplemented by observations in optical (O), ultraviolet (UV) and extreme ultraviolet (EUV) wavelengths. The observations were made on 2018 December 25 of the northern polar coronal hole. ALMA obtained time-resolved imaging observations at wavelengths of 3 mm (100 GHz; 2~s cadence) and 1.25~mm (239 GHz; $\approx 2$~min cadence) with an angular resolution of $2.2" \times 1.3"$ and $1.5" \times 0.7"$, respectively. Spicules observed at mm-$λ$ are easily seen low in the chromosphere whereas spicules in UV bands are seen to extend higher. The spicules observed at mm-$λ$ are seen in absorption against coronal EUV emission, allowing us to estimate the column depth of neutral hydrogen. Spicular emission at mm-$λ$, due to thermal free-free radiation, allows us to estimate the electron number density as a function of height. We find that spicule densities, inferred from the mm-$λ$ data are uniquely insensitive to assumptions regarding the temperature of plasma in spicules. We suggest that the upward mass flux carried by spicules is unlikely to play a significant role in the mass budget of the solar corona and solar wind, and the transport of hot material into the corona by spicules may not play a significant role in coronal heating. However, the possibility that electric currents, fast kink and torsional waves, or other wave modes carried by spicules may play a role in transporting energy into the solar corona cannot be excluded.
format Preprint
id arxiv_https___arxiv_org_abs_2504_05448
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ALMA Observations of Solar Spicules in a Polar Coronal Hole
Bastian, T. S.
Alissandrakis, C.
Nindos, A.
Shimojo, M.
White, S. M.
Solar and Stellar Astrophysics
We report observations of solar spicules at millimeter wavelengths (mm-$λ$) using the Atacama Large Millimeter/submillimeter Array (ALMA). These are supplemented by observations in optical (O), ultraviolet (UV) and extreme ultraviolet (EUV) wavelengths. The observations were made on 2018 December 25 of the northern polar coronal hole. ALMA obtained time-resolved imaging observations at wavelengths of 3 mm (100 GHz; 2~s cadence) and 1.25~mm (239 GHz; $\approx 2$~min cadence) with an angular resolution of $2.2" \times 1.3"$ and $1.5" \times 0.7"$, respectively. Spicules observed at mm-$λ$ are easily seen low in the chromosphere whereas spicules in UV bands are seen to extend higher. The spicules observed at mm-$λ$ are seen in absorption against coronal EUV emission, allowing us to estimate the column depth of neutral hydrogen. Spicular emission at mm-$λ$, due to thermal free-free radiation, allows us to estimate the electron number density as a function of height. We find that spicule densities, inferred from the mm-$λ$ data are uniquely insensitive to assumptions regarding the temperature of plasma in spicules. We suggest that the upward mass flux carried by spicules is unlikely to play a significant role in the mass budget of the solar corona and solar wind, and the transport of hot material into the corona by spicules may not play a significant role in coronal heating. However, the possibility that electric currents, fast kink and torsional waves, or other wave modes carried by spicules may play a role in transporting energy into the solar corona cannot be excluded.
title ALMA Observations of Solar Spicules in a Polar Coronal Hole
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2504.05448