Abstract
We report detection of oscillations in brightness temperature, size and horizontal velocity of three small bright features in the chromosphere of a plage/enhanced-network region. The observations, which were taken with high temporal resolution (i.e. 2 s cadence) with the Atacama large millimetre/ submillimetre array (ALMA) in Band 3 (centred at 3 mm; 100 GHz), exhibit three small-scale features with oscillatory behaviour with different, but overlapping, distributions of period on the order of, on average, 90 ± 22 s, 110 ± 12 s and 66 ± 23 s, respectively. We find anti-correlations between perturbations in brightness, temperature and size of the three features, which suggest the presence of fast sausage-mode waves in these small structures. In addition, the detection of transverse oscillations (although with a larger uncertainty) may also suggest the presence of Alfvénic oscillations which are likely representative of kink waves. This work demonstrates the diagnostic potential of high-cadence observations with ALMA for detecting high-frequency magnetohydrodynamic waves in the solar chromosphere. Such waves can potentially channel a vast amount of energy into the outer atmosphere of the Sun. This article is part of the Theo Murphy meeting issue 'High-resolution wave dynamics in the lower solar atmosphere'.
Highlights
The solar atmosphere consists of a large variety of magnetic structures capable of maintaining different types of magnetohydrodynamic (MHD) waves [1,2,3,4]
We present evidence of MHD-wave signatures in three small bright features traced in time within the field of view (FOV) of an Atacama large millimetre/ submillimetre array (ALMA) Band 3 dataset
Clear oscillatory behaviours are observed in both brightness temperature and size of the three features under study. The fluctuations in these two parameters show an anti-phase correlation. This suggests the identification of fast sausage modes in the small chromospheric bright features
Summary
The solar atmosphere consists of a large variety of magnetic structures capable of maintaining different types of magnetohydrodynamic (MHD) waves [1,2,3,4]. Gafeira et al [21] reported the anti-phase behaviour in Slender Ca II H Fibrils observed at 3969 Å with the SuFI instrument onboard the SUNRISE balloon-borne solar observatory [22,23] Both kink- and sausage-mode waves have been observed in large magnetic structures such as sunspots and pores, as well as in small-scale elongated structures. Eklund et al [41] found signatures of shock-wave events in Band 3 (2.8–3.3 mm) observations from December 2016, coming to the conclusion that there are numerous small-scale dynamic structures with lifetimes of 43–360 s present in the ALMA field of view (FOV), with excess temperatures of more than 400 K and a correlation between their occurrence and the magnetic field strength Characterization of such events at millimetre wavelengths has been studied in detail from numerical simulations [42].
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